Sewage Treatment Tenders

Details: Description Subject : Design And Build Of Dedvmh Multi-purpose / Evacuation Area Location : Dedvmh Compound, Bood, Ubay, Bohol Terms Of Reference I. Background Don Emilio Del Valle Memorial Hospital (dedvmh) Is A Licensed Level 2 General Hospital Located In Ubay, Bohol With 200 Authorized Bed Capacity Which Aims To Provide Highly Specialized Quality Healthcare Services To All Where Human Dignity Is Valued And Respected By Competent And Committed Personnel. In Accordance With The Provisions Of And Related Issuances Of Doh Administrative Order No. 2019-0056 Increasing The Bed Capacity Of Dedvmh From 50 Beds To 300 Beds And R.a. No. 11223, Or The “universal Health Care Act”, The Hospital Shall Provide Promotive, Preventive, Diagnostic, Curative, And Palliative Care Services, And Research, Professional Teaching And Training Programs And Shall Be Fully Equipped With The State-of-the Art Equipment And Facilities, Complemented By Adequately Trained And Competent Human Resources For Health Appropriate For A Licensed And Accredited Tertiary General Hospital. Dedvmh Shall Strengthen Its Existing Basic Services, And Aim For The Improvement Of Its Service Capability And Capacity Serving As Referral Hospital In The Northeastern Section Of The Bohol Province, Complementing Local Health Systems And Providers Of Municipalities In The Area. In Order To Fulfill This Mandate, Dedvmh Is Upgrading Its Services To Become A Level Iii Hospital To Provide Better And Quality Healthcare Services Especially In The Northeastern Part Of Bohol, Its Catchment Areas And Nearby Provinces. The Increase In The Bed Capacity And Expansion Of Services And Capability Are Consistent With The Dedvmh’s Hospital Development Plan (hdp) And Philippine Health Facility Development Plan (phfdp) 2020-2040. Ii. Objectives This Project Aims To Construct A Safe Center While Providing Prime Patient Care During Weather Adversities. This Is In Consonance As Well With Our Continuing Drive In Developing Health Measures To Adapt To Climate Change. This Center Shall Serve As A Safe Sport Avenue Promoting Healthy Lifestyles To Healthcare Workers. This Will Also Be Utilized To House Hospital Activities To Shield Participants From Heat And Rain. It Also Aims To Create A Versatile Multi-purpose/evacuation Center Housing The Health Information Management Systems (himo) Department On The Lower Ground Floor To Support Secure And Efficient Data Management Critical To Hospital Operations. With Future Funding, The Center Is Planned To Include A Multi-purpose Court On The Upper Ground Floor, Promoting Wellness And Recreational Activities For Healthcare Staff, As Well As Office Spaces On The Second Floor To Support Future Departmental Growth And Administrative Needs, Ensuring The Facility Remains Adaptable And Functional For Various Purposes. The Design Must Also Conform To The Standards Set By In Accordance To The Manual On Technical Guidelines For Hospitals Planning And Design (level 3) And Doh Green And Safe Health Facilities Manual To Develop Climate Smart Health Facilities That Address And Adapt To The Impacts On The Environment. The Winning Bidder Shall Design For This Project With The Approval Of The Medical Center Including The Approved Detailed Estimates, Bill Of Quantities, Technical Specifications, And Methodology Of Construction And Scope Of Works Of The Project. Iii. Conceptual Design The Design Concept Of The Project Was Governed By The Planning And Design Standards Of Level 3 Service Capability Hospital Facility As Prescribed By The Latest Requirements Of The Department Of Health And Other Concerned Agencies. Building Design Shall Conform To The Provisions Of The National Building Code Of The Philippines (pd 1096), Accessibility Law (bp 344), Architecture Law (ra 9266), National Structural Code Of The Philippines, Electrical Engineering Law (ra 7920), Mechanical Engineering Law (ra 5336), Plumbing Code (ra 1378, 1993-1994 Revisions), Fire Code (ra 9514) And Other Laws And Regulations Covering Environmental Concerns And Local Ordinances And Regulations. The As-built Plan And Proposed Schematic Lay-out/call-out Will Be Provided As Basis Reference In The Development Of Preliminary Conceptual Design Plans To Be Submitted As Part Of The Technical Proposal. However, It Is The Responsibility Of The Bidder To Verify Actual Site Conditions And Dimensions. The Preliminary Conceptual Design Plans And Perspectives Shall Be Included Construed Part Of The Technical Proposal As Follows: Preliminary Conceptual Design Plans Required Specified Degree Of Details 1. Schematic Floor Plans: A. Lower Ground Floor B. Upper Ground Floor (partitions For Funding) C. Second Floor (above Stage Area) All Schematic Plans Shall Be At Least A3 Size Paper And Shall Meet The Minimum Space Requirements And Planning/design Guidelines Of Level 3 Hospital For: - Health Information Management Systems Department Offices & Storage, Waiting Area - Wellness Area - Covered Area Proposed For Multi-purpose Court - Proposed Area For Offices Preliminary Conceptual Design Plans Required Specified Degree Of Details A. Aerial Perspective View All Perspective / Plans Shall Be At Least A3 Size Paper In Colored Printed And Shall Conform With The Preliminary Conceptual Plans And At Least 3d Rendered. B. Man’s Eye / Worm’s Eye Perspective View All Perspective / Plans Shall Be At Least A3 Size Paper In Colored Printed And Shall Conform With The Preliminary Conceptual Plans And At Least 3d Rendered. C. Front Perspective View All Perspective / Plans Shall Be At Least A3 Size Paper In Colored Printed And Shall Conform With The Preliminary Conceptual Plans And At Least 3d Rendered. D. Rear Perspective View In Conformance With The Preliminary Conceptual Plans And At Least 3d Rendered. E. Left & Right-side Perspective View All Perspective / Plans Shall Be At Least A3 Size Paper In Colored Printed And Shall Conform With The Preliminary Conceptual Plans And At Least 3d Rendered F. Longitudinal And Transverse Section Plans At Least One Longitudinal And One Transverse Section Plans In At Least A3 Size Paper The Conceptualization Of The Design Including Its Specifications And Space Requirements Shall Complement And/or Supplement With The Existing Site Conditions. Proponent’s Input, Suggestion And Recommendations With Regard To The Identification Of The Scope Or Physical Components And Structures, Specific Outputs And Requirements And Proposed Construction Methods Shall Be Considered. Iv. Performance Specifications And Parameters Site And Space Planning Were Governed By The Standards, Rules And Regulations On The Design Of Level 3 Hospitals As Prescribed By The Department Of Health And Other Concerned Agencies. Building Design Shall Conform To The Provisions Of The National Building Code Of The Philippines (pd 1096), Accessibility Law (bp 344), Architectural Law (ra 9266), Civil Engineering Law (ra 544), National Structural Code Of The Philippines, Electrical Engineering Law (ra 7920), Mechanical Engineering Law (ra5336), Plumbing Code (ra 1378, 1993-1994 Revisions), Fire Code (ra 9514) And Other Laws And Regulations Covering Environmental Concerns And Local Ordinances And Regulations. A. Pre-detailed Design 1. Engineering Surveys And Investigations 1.1 Surveys And Investigations Of The Site Includes Elevations And Contours (at 0.5m Interval), Soil Tests, Location, Dimension, Floor Elevations And Other Pertinent Data On Existing Buildings And Improvements (roads, Parking Areas, Mature Trees) And Existing Utility Lines (e.g. Water, Power, Telephone). 2. Preliminary Conceptual Design Plans/perspective 2.1 Preparation Of The Following Drawings For Design Development Based On The As Built Plan And Schematic Lay-out/call-out Prepared By The Procuring Entity. Please Refer To Section Iii. Conceptual Design. B. Detailed Design Preparation Of Final Design Concept And Detailed Architecture And Engineering Design Shall Be In Accordance With The Schematic Plans For Hospital Building And Design Conceptualization Duly Approved By The Dedvmh. In Determining The Final Design Concept And Detailed Architecture And Engineering Design, The Implementing Unit Together With The Design And Build Contractor Shall Initiate The Coordination Meeting With The Concerned Stakeholders In The Following Schedule: First Session - The Design And Build Contractor Shall Present The First Schematic Plan And Design Concept For Deliberation, Consultation And Inputs By The Proponents Within Ten (10) Calendar Days From The Effectivity Of Notice To Proceed Second Session - The Design And Build Contractor Shall Present The First Revision Of Schematic Plan And Design Concept For Deliberation, Consultation And Inputs By The Proponents, If There Any, Within Twenty (20) Calendar Days From The Effectivity Of Notice To Proceed Third Session - The Design And Build Contractor Shall Present The Second Revision Of Schematic Plan And Design Concept For Deliberation, Consultation And Inputs By The Proponents, If There Any, Within Thirty (30) Calendar Days From The Effectivity Of Notice To Proceed Upon Approval Of The Final Schematic Plan And Design Concept, The Design And Build Contractor Shall Then Proceed For The Design Phase, Enumerated As Follows: 1. Preparation Of The Following Detailed Design Drawings Of Entire Building (see Doh Checklist Of Drawings Requirements) Based On The Design Development Drawings And Design Parameters Including Any Revisions And Refinements As Approved And Required By The Dedvmh: A. Detailed Architectural Plans (refer To Checklist Of Drawings Requirements And Design Parameters). B. Detailed Structural Plans (refer To Checklist Of Drawings Requirements And Design Parameters). C. Detailed Electrical Plans (refer To Checklist Of Drawings Requirements And Design Parameters). D. Detailed Storm Drain, Sanitary And Plumbing Plans (refer To Checklist Of Drawings Requirements And Design Parameters). E. Detailed Mechanical Plans (refer To Checklist Of Drawings Requirements And Design Parameters). F. Structural Computations, Including Soil Boring Test Results And Seismic Analysis And Electrical Design Computations. G. General Notes And Technical Specifications Describing Type And Quality Of Materials And Equipment To Be Used, Manner Of Construction And The General Conditions Under Which The Project Is To Be Constructed. H. Detailed Cost Estimates, Detailed Bill Of Qualities, Bill Of Quantities, And Program Of Works Including A Summary Sheet Indicating The Unit Prices Of Construction Materials, Labor Rates And Equipment Rentals. I. Summary Of Works J. All Design Output Shall Include The Following: Particulars Design Required Output Hard Copy Printed In Standard Size Paper 40 X 30 Printed And Hardbound Catalog For All Perspective Views, Architectural Finishes, Electrical Fixtures, Sanitary/plumbing Fixtures Utilizing Standard A4 Size Photo Paper Electronic Copy Electronic Copies In Standard Formats: - Designplansfile.pdf; - Designplanscadfile.dwg; - Design3dfile.skp/dwg/etc; - Powerpointpresentation.ppt; - 3d Animations (walkthrough.mp4/avi/mov/etc.) Design And Build Contractor Shall Compile All The Files And To Be Stored In 1tb External Drive Fourth And Final Session - The Design And Build Contractor Shall Submit The Completed Detailed Design Drawings Of The Entire Building, Within Sixty (60) Calendar Days From The Effectivity Of Notice To Proceed. C. Green Building 1. Design Development Shall Consider At Least Basic Requirements For Green Building Applied To Hospital Facilities In Building Component Systems Such As Architectural, Structural, Electrical, Mechanical, And Sanitary. D. 3d Animation And Walkthrough Presentations Designer Shall Prepare A 3d Walkthrough, That Is, Taking A Virtual Tour Of The Proposed Project/structure In Any Design Platform. It Shall Be Produced From Digital 3d Models That Have Been Visualized To A Photo-realistic Standard That Will Showcase All The Design Elements, Both Externally And Internally Of A Property Development And Its Spaces. Minimum Expected Output Shall Include But Not Limited To: - 3d Walkthrough Presentation That Will Show From The Main Entrance Of The Hospital Compound, Going Through The Site Where The Project Is To Be Located. From The Site, It Should Walk Through The Main Facade And Entrance Of The Ground Floor Of The Building Up To The Third Floor Showing All The Respective Floors, Its Lobbies, Hallways, Rooms And Other Support Facilities. - In Addition, The 3d Walkthrough Presentation Shall Include The Exterior Views / Facade Of The Building With Its Adjoining Structures. E. Pre-construction Pre-construction Meeting Shall Be Scheduled On The Next Day That The Completed Detailed Design Drawings Are Submitted. Key Stakeholders—including The Dedvmh, And The Design And Build Contractor (architects, Engineers, Consultants, And Contractor—must Attend). The Meeting Will Serve To:  Review And Confirm The Submitted Design Documents.  Ensure That The Designs Comply With The Project’s Specifications, Budget, And Schedule.  Address Any Necessary Adjustments Or Clarifications Before Construction Commences. After The Pre-construction Meeting, The Design And Build Contractor Shall Finalize And Submit The Following Documents For The Approval Of Dedvmh: 1. Duly Signed Construction Schedule And S-curve 2. Duly Signed Manpower Schedule 3. Duly Signed Construction Methods 4. Duly Signed Pert Cpm And Ghannt Chart Showing Per Item Of Works Of Individual Projects 5. Log Book This Submission Should Encompass All Architectural, Structural, And Mepfs Plans, Specifications, And Any Amendments From The Meeting. These Documents Will Form The Basis For Construction. Upon The Dedvmh’s Approval Of The Submitted Construction Documents, A Notice To Commence Will Be Issued. Construction Activities May Only Begin Following The Issuance Of This Notice. F. Construction As A Rule, Contract Implementation Guidelines For Procurement Of Infrastructure Projects Shall Comply With Annex “e” And Guidelines For The Implementation Of Contracts For Design And Build Infrastructure Projects Shall Comply With Annex “g” Of Irr, Ra 9184. The Following Provisions Shall Supplement These Procedures: 1. Scope Of Works: Supply Of Materials, Labor, Tools And Equipment Necessary To Complete The Execution Of Architectural, Structural And Electrical And Mechanical Works. Includes All Other Necessary Works That Complete For The Fully Operational Building But Limited To The Following Work Items; A) Site Works - Provision Of Temporary Perimeter Fence - Demolition Of Existing Building/structure, Includes Hauling Of Debris Within The Hospital Compound - All Materials, Debris, Etc. Identified As Garbage As Directed By Hospital Management Shall Be Disposed Off-site - Excavation And Grading Provide Necessary Soil Protection On Excavated Portion. - Soil Poisoning And Termite Control B) Foundation Works - Foundation Of The Entire Building Includes Column Footings, Wall Footings And Other Sub-structures As Specified In The Approved Plan. C) Concrete Works - From Foundation (entire Building); Includes Slabs, Beams And Girders D) Architectural Works I) Exterior Walls – All Exterior Wall At Lower Ground Floor To Upper Ground Floor Including Plastering Ii) Interior Walls – All Interior Wall At Functional Floors Complete With Wall Finishes Iii) Ceiling Works – All Functional Floors As Determined By Procuring Entity Iv) Floor Finish – All Functional Floors As Determined By Procuring Entity V) Doors And Windows– All Exterior Doors And Windows As Per Plan And Specifications Vi) Doors And Windows – All Functional Areas As Determined By Procuring Entity Vii) Painting Works – All Exterior Walls; Interior Walls At Functional Areas Viii) Façade And Signage E) Electrical Works I) Roughing-ins – All Necessary Roughing-ins Including Riser Conduits From Lower Ground Floor To Upper Ground Floor Including Cable Tray Ii) Panel Boards And Breakers – Main Breaker; Panel Boards From Ground Floor To Third Floor Iii) Wires And Cables – All Wires And Cables At Functional Floors Includes Installation Of Main Feeder Lines Tap To Existing Power House Including Connections To All Panel Board And Breakers Iv) Electrical Fixtures And Devices – All Fixtures And Wiring Devices At Functional Areas. Provision Of Usb Ready Outlets To Every Rooms. V) Application Of Electrical Connections/permits Shall Be Shouldered By The Contractor F) Mechanical Works I) Installation Of Automatic Fire Protection System At Functional Areas Ii) Installation Air Condition Units At Functional Areas As Determined By Professional Mechanical Engineer G) Plumbing And Sanitary Works I) Installation Of Plumbing And Sanitary System At Functional Areas, Includes; - Water Supply Pipelines - Waste Water Pipelines - Plumbing Fixtures And Accessories - Necessary Riser Pipes - Fiber Glass Pressure Tank - Drainage System I) Electronics / Auxiliary Works - At Functional Areas: Public Address / Voice Evacuation Systems (paging Systems), Cctv, And Or Integrated Information And Communication Systems, Installation Of Fire Detection And Alarm System (fdas) At Functional Floors J) Other Works 1. No Works Shall Commence Unless The Contractor Has Submitted The Prescribed Documentary Requirements And The Dedvmh Has Given Written Approval. Work Execution Shall Be In Accordance With Reviewed And Approved Documents. The Contractor Shall Process The Approval Of Permit To Construct (ptc) Form Doh – Central Visayas Regional Office, Cebu City. In Addition To, The Contractor Shall Process The All-necessary Permits (i.e., Building Permit, Occupancy Permit And All Prerequisite Permits) Chargeable Against The Project. 2. The Contractor Shall Be Responsible For Obtaining All Necessary Information As To Risks, Contingencies And Other Circumstances Which May Affect The Works And Shall Prepare And Submit All Necessary Documents Specified By The Concerned Building Officials To Meet All Regulatory Approvals As Specified In The Contract Documents. 3. Any Errors, Omissions, Inconsistencies, Inadequacies Or Failure Submitted By The Contractor That Do Not Comply With The Requirements Shall Be Rectified, Resubmitted And Reviewed At The Contractor’s Cost. If The Contractor Wishes To Modify And Design Or Document Which Has Been Previously Submitted, Reviewed And Approved, The Contractor Shall Notify The Hospital Management And The Procuring Entity Within A Reasonable Period Of Time And Shall Shoulder The Cost Of Such Changes. 4. As A Rule, Changes In Design And Construction Requirements Shall Be Limited Only To Those That Have Not Been Anticipated In The Contract Documents Prior To Contract Signing And Approval. The Following Guidelines Shall Govern Approval For Change Or Variation Orders: A. Change Orders Resulting From Design Errors, Omissions Or Non-conformance With The Performance Specifications And Parameters And The Contract Documents By The Contractor Shall Be Implemented By The Contractor At No Additional Cost To The Procuring Entity. B. Provided That The Contractor Suffers Delay And/or Incurs Costs Due To Changes Or Errors In The Dedvmh Performance Specifications And Parameters, The Contractor Shall Be Entitled To Either One Of The Following: 1. An Extension Of Time For Any Such Delays Under Section 10 Of Annex “e” Of Irr (ra 9184); Or 2. Payment For Such Costs As Specified In The Contract Documents, Provided, That The Cumulative Amount Of The Variation Order Does Not Exceed Ten Percent (10%) Of The Original Project Cost. C. The Contract Documents Shall Include The Manner And Schedule Of Payment Specifying The Estimated Contract Amount And Installments In Which The Contract Will Be Paid. D. The Contractor Shall Be Entitled To Advance Payment Subject To The Provisions Of Section 4 Of Annex “e”, Irr (ra 9184). D. The Dedvmh Shall Define The Quality Control Procedures For The Design And Construction In Accordance With The Doh Guidelines And Shall Issue The Proper Certificates Of Acceptance For Sections Of The Works Or Whole Of The Works As Provided For In The Contract Documents. E. The Contractor Shall Provide All Necessary Equipment, Personnel, Instruments, Documents And Others To Carry Out Specified Tests. F. This Design And Build Projects Shall Have A Minimum Defects Liability Period Of One (1) Year After Contract Completion Or As Provided For In The Contract Documents. This Is Without Prejudice To The Liabilities Imposed Upon The Engineer/architect Who Drew Up The Plans And Specification For Building Sanctioned Under Section 1723 Of The New Civil Code Of The Philippines. G. The Contractor Shall Be Held Liable For Design And Structural Defects And/or Failure Of The Completed Project Within The Warranty Period Of 15 Years For Permanent Structures/buildings As Specified In Section 62.2.3.2 Of The Irr (ra 9184) V. Implementation Arrangement A. Reporting Protocol Contact Person I. Nelson A. Elle, Md, Dtmph, Mscih Office Of The Medical Center Chief Ii Don Emilio Del Valle Memorial Hospital Bood, Ubay, Bohol Ii. Joan V. Kadusale, Cpa Supervising Administrative Officer Don Emilio Del Valle Memorial Hospital Bood, Ubay, Bohol Iii. Leomel R. Labitad, Ce Engineer Iii Don Emilio Del Valle Memorial Hospital Bood, Ubay, Bohol Iv. Allana Jane C. Dacoylo, Uap Architect Ii Don Emilio Del Valle Memorial Hospital Bood, Ubay, Bohol Vi. Elegibility Requirements A. Basic 1. The Eligibility Requirements For Design And Build Scheme Shall Comply With The Applicable Provisions Of Sections 23-24 Of Irr Of Ra 9184. 2. A Modified Set Of Requirements Integrating Eligibility Documents And Criteria For Infrastructure Project And Consulting Services Shall Be Adopted In Accordance With Annex G - Guidelines For The Procurement And Implementation Of Contracts For Design And Build Infrastructure Projects Of Irr Of Ra 9184. 3. Pcab Classification Under “general Building”; License Category B “medium A” 4. Contractor Must Have Similar Project In The Amount At Least Fifty Percent (50%) Of The Abc Within The Past Five (5) Years. 5. Similar Projects With The Following But Not Limited To:  Medium-rise Hospital Facility Project, Must Have Ongoing Or Completed Project At Least 6-storey Building.  Supply And Installation Of Hvac System. B. Specialized 1. For Pre-design And Design Phase Of The Contract, The Bidder Shall Comply The Following Professionals To Be Assigned: I. Project Coordinator • Licensed Architect Or Engineer With At Least 15 Years’ Experience In Hospital-related Project Management. • Superb Oral And Written Communication Skills, Organization Skills And Excellent Administrative Abilities. Ii. Architect • The Architect Must Be A Registered And Licensed Architects (rla), With An Updated Professional Identification Card And Must Be A Member In Good Standing Of The Integrated And Accredited Professional Organization Of Architects (iapoa). • Should Have At Least 10 Years’ Experience In Hospital-related Project. Iii. Structural Engineer • Licensed Structural Engineer With At Least 10 Years’ Experience In Hospital-related Project Management. • Must Be A Member Of Accredited Structural Engineer Associations. Iv. Mechanical Engineer • Licensed Professional Mechanical Engineer With At Least 10 Years’ Experience In Hospital-related Project. V. Electrical Engineer • Licensed Professional Electrical Engineer With At Least 10 Years’ Experience In Hospital-related Project. Vi. Sanitary Engineer • Licensed Sanitary Engineer With At Least 10 Years’ Experience In Hospital-related Project. Vii. Cad Operator (at Least One For Architecture And One For Each Engineering Specialty) • At Least Bachelor’s Degree In Architecture, Engineering, And/or Industrial Technology Major In Drafting • Proficient In Autocad Software Viii. Administrative Support Staff 2. For The Construction Phase Of The Contract, The Contractor Shall Assign Technical Personnel With The Following Qualification: I. Project Manager • Licensed Architect Or Engineer With At Least 10 Years’ Experience In Medium Rise Hospital-related Project • Superb Oral And Written Communication Skills, Organization Skills And Excellent Administrative Abilities. Ii. Project Engineer (civil) • Licensed Civil Engineer With At Least 5 Years’ Experience As Project Engineer In Medium Rise Hospital-related Project Iii. Project Engineer (mechanical) • Registered Mechanical Engineer With At Least 5 Years’ Experience As Project Engineer In Medium Rise Hospital-related Project Iv. Project Engineer (electrical) • Registered Electrical Engineer With At Least 5 Years’ Experience As Project Engineer In Medium Rise Hospital-related Project V. Cad Operator (at Least One For Architecture And One For Each Engineering Specialty) • At Least Bachelor’s Degree In Architecture, Engineering, And/or Industrial Technology Major In Drafting • Proficient In Autocad Software Vi. General Foreman (all Discipline) • With At Least 5 Years’ Experience As General Foreman In Medium Rise Project Vii. Skilled Workers (all Discipline) • With At Least 3 Years’ Experience In Medium Rise Project Viii. Administrative Support Staff Vii. Approved Budget Cost Project Description Approved Budget Cost Design Of Dedvmh Multi-purpose / Evacuation Area 5% - 7% Of Abc Construction Of Dedvmh Multi-purpose / Evacuation Area 93% - 95% Of Abc Total Abc Php 30,000,000.00 The Approved Budget For The Design-build Contract Is Thirty Million Pesos (php 30,000,000.00) Which Is Identified As The Design And Build Of Don Emilio Del Valle Memorial Hospital Multi-purpose/evacuation Area. Detailed Architectural And Engineering Design Services Shall Not Exceed Seven Percent (7%) Of The Approved Budget Cost (as Per Prboa Resolution No. 6 Series Of 2016 - Architect’s Guidelines For Standards Of Professional Practice Compliances On The Methods Of Compensation And Schedule Of Fees, Pursuant To Republic Act No.9266, Published In The Official Gazette, September 19, 2016 Issue) Of The Entire Building Inclusive Of Taxes And Duties. Proposals Exceeding The Approved Budget Shall Be Automatically Rejected. Viii. Estimated Duration Of Engagement The Duration Of The Contract Is Three Hundred (300) Calendar Days From The Design Phase Up To The Completion Of The Project From The Date Of Effectivity: I. Pre-design And Design Phase - 60 Calendar Days Ii. Construction Phase - 240 Calendar Days Ix. Minimum Requirements For Construction Safety And Health A. General Requirements No Contractor Or Subcontractor Shall Require Any Employee To Work In Surroundings Or Under Working Conditions That Are Unsanitary, Hazardous, Or Dangerous To His Health Or Safety. In Order To Meet This General Requirement, The Contractor Must: 1. Initiate And Maintain Programs (written Or Otherwise) To Comply With This General Requirement. 2. Provide Frequent And Regular Inspections Of The Job Sites By Competent Persons.  Competent Person Means One Who Is Capable Of Identifying Existing And Predictable Hazards In The Surroundings Or Working Conditions Which Are Unsanitary, Hazardous, Or Dangerous To Employees, And Who Has Authorization To Prompt Corrective Measures To Eliminate Them. 3. Prohibit The Use Of Any Machinery, Tool, Material, Or Equipment That Is Not In Compliance With Applicable Requirements. 4. Permit Only Those Employees Adequately Trained To Operate Machinery Or Equipment. 5. Provide Training For All Employees In:  Recognition And Avoidance Of Unsafe Conditions  Workplace Safety And Health Requirements  Applicable Hazards, Safe Handling, And Personal Protective Equipment Necessary For Handling Poisons, Caustics, Flammables, And Other Harmful Substances Relevant To Their Job Duties.  Specific Hazards And Procedures For Entering Confined Spaces If Applicable 6. Provide Provisions For Medical Care And First Aid. 7. Develop An Effective Fire Protection And Prevention Plan. 8. Ensure Appropriate Housekeeping Measures Including Clear Walkways And Removal Of Combustible Scrap And Debris. 9. Require The Wearing Of Appropriate Personal Protective Equipment Such As Hard Hats, Safety Glasses, Steel Toe Shoes, Or Other Appropriate Protective Equipment In All Operations Where There Is An Exposure To Hazardous Conditions. 10. Develop An Emergency Action Plan Covering Designated Actions Employers And Employees Must Take To Ensure Employees Safety From Fire And Other Emergency.  Plan Must Be In Writing For Employers With Greater Than 10 Employees  All Employees Must Be Trained Upon Initial Assignment On The Parts Of The Plan The Employee Needs To Know In The Event Of An Emergency. 11. Provide Access To Hand Washing Facilities, Toilets, And An Adequate Supply Of Drinking Water. 12. Provide Safety And Health Signs That Are Clearly Visible To Construction Workers And Public. 13. Conduct Regular Safety Meetings. Source: Colorado State University Occupational Health And Safety Section Department Of Environmental Health Fort Collins, Colorado X. Design Technical Specifications And Requirements The Bidder Shall Submit The Following Design Deliverables In Accordance With The Design Specifications, Parameters And Drawing Checklist But Not Limited To The Following: Activity Reports And Documents Required 1. Pre-design Phase 1.1 Structural Analysis And Design Five (5) Sets Duly Signed And Seal Structural Analysis And Design Report In Hard Bound Including The Executable E-files (staad/etabs,etc.) Five (5) Sets Duly Signed And Seal Structural Specifications In Hard Bound (refer To Structural Analysis And Design Specification And Parameters) 1.2 Master Site Development Plans And Conceptual 3d Design Five (5) Sets Duly Signed And Seal Master Site Development Plans In Hard Copy (at Least 20 X 30 Paper Size In Desired Minimum Scale) And Softcopy (editable File.dwg And 3d Model.skp/cad/etc) Powerpoint Presentation And/or Walkthrough Presentation 2. Design Phase 2.1 Detailed Architecture And Engineering Designs/plans Including Applicable And/or Approved Revisions To The Satisfaction Of The Procuring Entity Five (5) Sets Duly Signed And Seal Detailed Architecture And Engineering Plans/drawing In Hard Copy (at Least 20 X 30 Paper Size In Desired Minimum Scale) And Softcopy (editable File.dwg And 3d Model.skp/cad/etc) (refer To Design Parameters And Drawing Checklists) 2.2 Construction Technical Specifications Five (5) Sets Duly Signed And Seal Construction Technical Specifications In Hard Bound Xi. Space Requirements General Floors:  Ceiling Height Should Be At Least Three Meters Clear Height For 2nd Floor And Up. Ground Floor Lobby Must Be Of Higher Ceiling.  Provision Of Utility Room Enough To House Trolley And Dirty Utilities With Floor Drain  All Floors Shall Have Direct Access To Ramp  Both Stairs Are For Service And Emergency Use  External Window At Second Floor And Up Shall Be Of Awning Type.  Provision Of Electrical Room  Ramp For Wheelchair Access (with A Clear Width Of At Least 1.22 M. 4 Ft.).  Minimum Of Two (2) Exits, Remote From Each Other, For Each Floor Of The Building.  Exits Restricted To The Following Types: Door Leading Directly Outside The Building, Interior Stair, Ramp And Exterior Stair.  Exits Terminate Directly At Open Space To The Outside Of The Building. Lower Ground Floor – Health Information Management Systems Department • Waiting Area - This Area Is Dedicated For Waiting Area Of Patients, Patient’s Immediate Family Members, Hospital Staffs, And Client/visitors For Receiving And Issuance Of Medical/medico-legal Certificates, Birth And Death Certificates. It Is Designed As An Open Space To Promote Cross-ventilation, Ensuring Comfort And Improved Air Quality For All Users. - Planning Relationships: A. Accessible To Receiving/releasing Area - Lighting System: B. For General Illumination, Provide At Least 500 Lux. - Power System: C. Provide At Least Four (4) Units Of Outlet With Specifications Of 15a, 2p, 240v, Duplex, Grounding Type And Universal Slots. Also, Provide At Least One (1) Unit Of Outlet For Emergency Light With Specifications Of 15a, 2p, And 240v, Single. - Auxiliary System: D. Provide And Install The Following Auxiliary System: • Communication System  Public Address Paging System – Provide At Least One (1) Unit Paging System - Fire Alarm System: E. Provide At Least Two (2) Units Smoke Detector. - Security System: F. Provide Closed – Circuit Television Cctv Shall Be Installed At The Lobby And Corridor Or Hallway Of This Floor With Central Monitor Located At The Reception Area And At Least Two Views Or Angles Of Cctv • Staff Office And Releasing/receiving Area - This Area Is Dedicated For Hims Staff And Other Authorized Users To Conduct Medical Studies, Read, Write, And Retrieve Records, Processing And Filing Of Opd, Er, And Or Records, Transcription Of Birth And Death Certificates, Staff Assembling/inputting Of Inpatient Charts And Updated Death Registry, And Receiving/issuance Of Medical/medico Legal Certificates, Birth, And Death Certificates. This Shall House Thirty-three (33) To Thirty-nine (39) Staff Desks And Chairs, Cabinet Filing, Adjustable Stool At Receiving/releasing/transaction Counter, Transaction Counter Window, Space For Photocopier, Risograph Machine, And Paper Shredder. This Should Be Designed To Incorporate Windows To Enable Cross-ventilation, Ensuring A Well-ventilated, Fresh-air Environment. In Addition To Being Well-lit And Featuring Two Exits, The Area Should Use Noise-reducing Materials To Maintain A Quiet, Efficient Workspace. - Planning Relationships: A. Accessible To Filing Area - Lighting System: B. For General Illumination, Provide At Least 500 Lux. - Power System: C. Provide At Least Fifteen (15) Units Of Outlet With Specifications Of 15a, 2p, 240v, Duplex, Grounding Type And Universal Slots. Also, Provide At Least One (1) Unit Of Outlet For Emergency Light With Specifications Of 15a, 2p, And 240v, Single. - Auxiliary System: D. Provide And Install The Following Auxiliary System: • Communication System  Telephone System – Provide At Least One (1) Unit Telephone Outlet.  Local Area Network System – Provide At Least One (1) Unit Data Outlet.  Public Address Paging System – Provide At Least One (1) Unit Paging System - Fire Alarm System: E. Provide At Least Four (4) Units Smoke Detector. - Security System: F. Provide Closed – Circuit Television Cctv Shall Be Installed At The Lobby And Corridor Or Hallway Of This Floor With Central Monitor Located At The Reception Area And At Least Two Views Or Angles Of Cctv • Wellness Area - The Wellness Area For Hospital Staffs Will Feature Separate Male And Female Comfort Rooms And Showers, Lockers, Space For Exercise Equipment, A Mirrored Wall, And A Full-length, One-way Tinted Framed Operable Awning Window And A Swing-in Double Entrance Door, That Will Offer A Wide View Of The Hospital Grounds, Providing Natural Light And Cross Ventilation For An Inviting And Refreshing Environment. Main Floor Tiles Should Be Of Vinyl Flooring, Ensuring A Safe, Durable Surface For Exercise Equipment And Activities. This Choice Adds Comfort And Safety To The Space For Staff Use. - Planning Relationships: A. Adjacent To Hims Department Waiting Area - Lighting System: B. For General Illumination, Provide At Least 500 Lux. - Power System: C. Provide At Least Ten (10) Units Of Outlet With Specifications Of 15a, 2p, 240v, Duplex, Grounding Type And Universal Slots. Provide At Least Six (6) Units Floor Mounted Outlet With Specifications Of 15a, 2p, 240v, Duplex, Grounding Type, Universal Slot. Also, Provide At Least One (1) Unit Of Outlet For Emergency Light With Specifications Of 15a, 2p, And 240v, Single. - Auxiliary System: D. Provide And Install The Following Auxiliary System: • Communication System  Telephone System – Provide At Least One (1) Unit Telephone Outlet.  Local Area Network System – Provide At Least One (1) Unit Data Outlet.  Public Address Paging System – Provide At Least One (1) Unit Paging System - Fire Alarm System: E. Provide At Least Two (2) Units Smoke Detector. - Security System: F. Provide Closed – Circuit Television Cctv With At Least Two Views Or Angles. • Head Office With Toilet - This Area Is Where Health Information Management Officer (himo) Reads, Transcribes, And Updates Disease And Operation Coding And Indexing, Prepares Communications And Other Pertinent Papers Related To Medical Records As Requested By Patients, Protects Confidentiality Of Medical Records, Performs Statistical And Other Reports Required By Doh And Other Institutions, And Performs Qualitative And Quantitative Analysis Of Hospital Health Records. This Will Feature A Glass Partition With A Door, Providing Visibility And Privacy Between The Office And The Staff Office And Releasing/receiving Area. It Will Also Include A Comfort Room And A Sofa For Receiving Visitors. - Planning Relationships: A. Accessible To Receiving/releasing Area B. Accessible To Staff Office - Lighting System: C. For General Illumination, Provide At Least 500 Lux. - Power System: D. Provide At Least Five (5) Units Of Outlet With Specifications Of 15a, 2p, 240v, Duplex, Grounding Type And Universal Slots. Provide At Least One (1) Unit Ground Fault Circuit Interrupter Also, Provide At Least One (1) Unit Of Outlet For Emergency Light With Specifications Of 15a, 2p, And 240v, Single. - Auxiliary System: E. Provide And Install The Following Auxiliary System: • Communication System  Telephone System – Provide At Least One (1) Unit Telephone Outlet.  Local Area Network System – Provide At Least One (1) Unit Data Outlet.  Public Address Paging System – Provide At Least One (1) Unit Paging System - Fire Alarm System: F. Provide At Least One (1) Unit Smoke Detector. - Air-conditioning System: G. Provide Air Conditioning System. • Completion Area/conference Room Toilet - This Room/area Is Where Researchers/doctors And Other Authorized Users Discuss And Finalize Pertinent Papers/documents Related To Medical Records As Requested By Patient/relatives. This Space Will Also Function As A Conference Room, Designed With Soundproofing Materials And A Glass Fixed Window Directly Facing The Staff Office To Provide Visibility While Maintaining Privacy And Minimizing Noise. - Planning Relationships: A. Accessible To Staff Office - Lighting System: B. For General Illumination, Provide At Least 500 Lux. - Power System: C. Provide At Least Six (6) Units Of Outlet With Specifications Of 15a, 2p, 240v, Duplex, Grounding Type And Universal Slots. Also, Provide At Least One (1) Unit Of Outlet For Emergency Light With Specifications Of 15a, 2p, And 240v, Single. - Auxiliary System: D. Provide And Install The Following Auxiliary System: • Communication System  Telephone System – Provide At Least One (1) Unit Telephone Outlet.  Local Area Network System – Provide At Least One (1) Unit Data Outlet.  Public Address Paging System – Provide At Least One (1) Unit Paging System - Fire Alarm System: E. Provide At Least One (1) Unit Smoke Detector. - Air-conditioning System: F. Provide Air Conditioning System. • Administrative Records Room - This Room/area Is Where Hims Staff Stores/files Administrative Records For Easy Access And Retrieves Records On File. It Will Include An Operable Sliding Window At A Reachable Height, Allowing For Natural Ventilation And Lighting. - Planning Relationships: A. Accessible To Staff Office - Lighting System: B. For General Illumination, Provide At Least 150 Lux. - Power System: C. Provide At Least Six (6) Units Of Outlet With Specifications Of 15a, 2p, 240v, Duplex, Grounding Type And Universal Slots. Also, Provide At Least One (1) Unit Of Outlet For Emergency Light With Specifications Of 15a, 2p, And 240v, Single. - Auxiliary System: D. Provide And Install The Following Auxiliary System: • Communication System  Telephone System – Provide At Least One (1) Unit Telephone Outlet.  Local Area Network System – Provide At Least One (1) Unit Data Outlet.  Public Address Paging System – Provide At Least One (1) Unit Paging System - Fire Alarm System: E. Provide At Least One (1) Unit Smoke Detector. - Air-conditioning System: F. Provide Air Conditioning System - Security System: G. Provide At Least One (1) Closed – Circuit Television Cctv With At Least Two Views Or Angles. • File Storage Area - This Room/area Is Dedicated As Storage Of Inactive Files That Have Passed The Ten-to-thirty-year Filing Period, Of Files To Ensure Protection From Fire, Floor And Theft, For Periodic Evaluation Of Inactive Health Records/files, And To Keep Medical Records Accessible As Many Years As Possible. It Will Include An Operable Sliding Window At A Reachable Height, Allowing For Natural Ventilation And Lighting. - Planning Relationships: A. Adjacent To Hims Department - Lighting System: B. For General Illumination, Provide At Least 150 Lux. - Power System: C. Provide At Least Fourteen (14) Units Of Outlet With Specifications Of 15a, 2p, 240v, Duplex, Grounding Type And Universal Slots. Also, Provide At Least One (1) Unit Of Outlet For Emergency Light With Specifications Of 15a, 2p, And 240v, Single. - Auxiliary System: D. Provide And Install The Following Auxiliary System: • Communication System  Public Address Paging System – Provide At Least One (1) Unit Paging System - Fire Alarm System: E. Provide At Least Seven (7) Units Smoke Detector. - Air-conditioning System: F. Provide Air Conditioning System. - Security System: G. Provide At Least One (1) Closed – Circuit Television Cctv With At Least Two Views Or Angles. • Records Room - This Room/area Within The File Storage Area Is Where Hims Staff Stores/files Opd, Er, And Or/dr Records, Birth And Death Certificates For Easy Access, Retrieves Records On File For Request/follow-up Of Patients/relatives And Researchers/doctors And Refiles Them, And Records Individual Charts By Patient’s Data For Complete Inventory Control. - Planning Relationships: A. Adjacent To Hims Department - Lighting System: B. For General Illumination, Provide At Least 150 Lux. - Power System: C. Provide At Least Six (6) Units Of Outlet With Specifications Of 15a, 2p, 240v, Duplex, Grounding Type And Universal Slots. Also, Provide At Least One (1) Unit Of Outlet For Emergency Light With Specifications Of 15a, 2p, And 240v, Single. - Auxiliary System: D. Provide And Install The Following Auxiliary System: • Communication System  Public Address Paging System – Provide At Least One (1) Unit Paging System - Fire Alarm System: E. Provide At Least One (1) Unit Smoke Detector. - Air-conditioning System: F. Provide Air Conditioning System. - Security System: G. Provide At Least One (1) Closed – Circuit Television Cctv With At Least Two Views Or Angles. • Staff Pantry And Lockers - This Is The Lounging Area For Hims Staff And For Storing Of Their Personal Belongings. This Will Be Well-ventilated With Natural Lighting, Providing Ample Space For Pantry Furniture, A Refrigerator, A Stainless-steel Sink, And Steel Lockers Measuring 300 X 500 Mm. - Planning Relationships: A. Adjacent To Hims Department - Lighting System: B. For General Illumination, Provide At Least 500 Lux. - Power System: C. Provide At Least Four (4) Units Of Outlet With Specifications Of 15a, 2p, 240v, Duplex, Grounding Type And Universal Slots. Provide At Least One (1) Ground Fault Circuit Interrupter (gfci). Also, Provide At Least One (1) Unit Of Outlet For Emergency Light With Specifications Of 15a, 2p, And 240v, Single. - Auxiliary System: D. Provide And Install The Following Auxiliary System: • Communication System  Public Address Paging System – Provide At Least One (1) Unit Paging System - Fire Alarm System: E. Provide At Least Two (2) Units Smoke Detector. - Air-conditioning System: F. Provide Air Conditioning System. - Security System: G. Provide At Least One (1) Closed – Circuit Television Cctv With At Least Two Views Or Angles. • Staff Female And Male Toilet - Separate Staff Female And Male Toilets For Staff Use, Located Within The Staff Pantry And Lockers Area For Convenience And Accessibility. - Planning Relationships: A. Within Staff Pantry B. Adjacent To Hims Department - Lighting System: C. For General Illumination, Provide At Least 500 Lux. • All Gender/pwd Public Toilet - This Restroom Is Designed To Be Inclusive, Complying With The Updates To The Amended Irr Of Bp 344. It Ensures Accessibility For All Genders And Persons With Disabilities (pwd), Featuring Wide Doors, Support Bars, Urinal And Spacious Layout To Meet The Latest Standards For Accessibility And Comfort. - Planning Relationships: A. Directly Accessible To Public. B. Minimum Of One (1) Toilet On Each Floor Accessible To Disabled. - Lighting System: C. For General Illumination, Provide At Least 500 Lux. • Electrical/auxiliary Room - Located On The Ground Floor Near Staff Office Exit, It Is Strategically Placed Away From Direct Client/visitors Access To Maintain Separation And Safety While Ensuring Easy Access For Maintenance And Operation. - Lighting System: A. For General Illumination, Provide At Least 250 Lux. - Fire Alarm System: B. Provide At Least One (1) Unit Smoke Detector. - Lighting System: C. For General Illumination, Provide At Least 500 Lux. - Power System: D. Provide At Least One (1) Units Of Outlet With Specifications Of 15a, 2p, 240v, Duplex, Grounding Type And Universal Slots. Also, Provide At Least One (1) Unit Of Outlet For Emergency Light With Specifications Of 15a, 2p, And 240v, Single. • Access Ramp - Ramps Designed To Provide A Smooth, Accessible Pathway For Individuals With Mobility Challenges, Such As Wheelchair Users, To Enter Or Exit A Building. These Ramps Should Meet Accessibility Standards, Including Proper Slope (usually 1:12), Non-slip Surfaces, Handrails On Both Sides, And Clear Signage. They Are Essential For Ensuring Equal Access To All Areas Of A Building, In Compliance With Accessibility Laws Like The Amended Irr Of Bp 344. - Planning Relationships: A. A Ramp Shall Have A Minimum Clear Width Of 1.22 Meters (or 4 Feet) In One Direction (or 2.44 Meters Or 8 Feet In Two Opposite Directions). B. The Slope Of The Ramp Shall Not Be Steeper Than 1:12 Meters. - Lighting System: C. For General Illumination, Provide At Least 500 Lux. • Janitor’s Closet - This Room/space Is Designed To Keep Cleaning Materials With Mop Sink And As Storage For Janitor’s Cleaning Tools. This Will Be Strategically Located For Easy Access By Utility Workers, Ensuring They Can Reach It Without Needing To Pass Through The Staff Office. - Planning Relationships: A. Adjacent To Hims Department Office And Waiting Area - Lighting System: B. For General Illumination, Provide At Least 500 Lux. Upper Ground Floor – Multi-purpose Court • Covered Area For Proposed Multi-purpose Court - This Area Is Designed With A Covered Roof And Perimeter Walls At A Height Of 1.2 Meters For Safety, Providing Space For The Proposed Multi-purpose Court And Second-floor Offices, With Plans For Future Funding. - Planning Relationships: A. Accessible To Receiving/releasing Area - Lighting System: B. For General Illumination, Provide At Least 1000 Lux. C. Provide High Bay Led Lights - Power System: D. Provide At Least Six (6) Units Of Outlet With Specifications Of 15a, 2p, 240v, Duplex, Grounding Type And Universal Slots. Also, Provide At Least One (1) Unit Of Outlet For Emergency Light With Specifications Of 15a, 2p, And 240v, Single. - Security System: E. Provide At Least One (1) Closed – Circuit Television Cctv With At Least Two Views Or Angles. Xii. Structural Design And Analysis Specifications And Parameters A. Codes And Standards The Civil/structural Design Shall Be In Accordance With The Following Codes And Standards  Codes 1. National Structural Code Of The Philippines (nscp) 2010 2. National Building Code Of The Philippines And Its Revised Irr 3. Accessibility Law 4. Local Codes And Ordinances  Standards 1. Bureau Of Product Standards (bps) 2. Philippine National Standards (pns) 3. Dpwh Blue Book 4. American Concrete Institute (aci) 5. American Society For Testing Materials (astm) 6. American Welding Society (aws) B. Design Criteria Shall Be Submitted First To The Procuring Entity For Concurrence Of The Following Minimum Design Requirements: 1. Design Loads (dead Load, Live Load, Wind Load, Seismic Load And Analysis Procedure, Load Combinations) 2. Materials (concrete, Reinforcing Steel Bars, Structural Steels) 3. Foundation (allowable Foundation Pressure) 4. Design References C. Minimum Design Input File In Structural Software And Required Reports 1. Job Information 2. Joint Coordinates 3. Material Definition/specification 4. Member Property 5. Support Definition 6. Load Definition (seismic/dead/live/wind/load Combinations) 7. Analysis Procedure 8. Analysis Result 9. Load List 10. Support Reaction List 11. Design Results (footing/ Column/ Beam) 12. Load Diagrams 13. Structural Plans -end Of Structural Design And Analysis- Xiii. Design Parameters (architectural) A. Codes And Standards The Architectural Works Shall Be In Accordance With The Following Laws, Codes And Standards.  Laws And Codes: 1. National Building Code Of The Philippines And Its Latest And Amended Irr 2. Ra 9266 Or Architecture Law And Its Latest And Amended Irr 3. Ra 4226 Or Hospital Licensing Act And Its Latest And Amended Irr 4. Bp 344 Or Accessibility Law And Its Latest And Amended Irr 5. Ao 35, S. 1994 Or Ao Pertaining To The Control Of Radiation Hazards 6. Ra 9514 Fire Code Of The Philippines 7. Existing Local Codes And Ordinances. 8. And Other Laws That Applies To The Projects  Standards: 1. Bureau Of Product Standards (bps) 2 Underwriters Laboratory (ul) 2. Doh Technical Guidelines For Hospital & Health Facilities Planning And Design – Level 3 B. General Drawing Guidelines 1. General  All Drawings Shall Be Computer-drafted. Drawings Shall Be Submitted Both In Printed And Electronic Copies.  Keep The Same Orientation For All Plans. The North Orientation Shall Be Indicated In All Architectural Floor Plans. The Orientation Of The Architectural Plans Shall Be Consistent With All The Engineering Plans.  Existing Buildings And New Works Shall Be Clearly Indicated And Labeled In The Site Plans.  Detailed Plans Shall Have A Scale Not Smaller Than 1:50 Meters.  Spot Detailed Plans, Elevations, And Sections Shall Have A Scale Not Smaller Than 1:10 Meters.  Avoid Notes Such As ‘see Architectural Detail’ Or ‘see Structural’. Always Refer With A Callout To The Specific Detail Drawing And Sheet Number. 2. Site Plans  The Site Plans Shall Have A Scale Not Smaller Than 1:500 Meters. 3. Floor Plans  All Plans Shall Be 1:100 Meters. The Same Scale Shall Be Used For The Rest Of The Architectural, Structural, Sanitary, Plumbing, Electrical And Mechanical Plans, Except For Each Trade’s Site Plan, Detailed Plans And Spot Details.  Elevation Callouts Shall Be Indicated On The Floor Plans And Shall Be Consistent With The Elevation Drawing.  Section Line Callouts On The Floor Plans Shall Be Consistent With The Section Drawing.  Floor Plans Shall Be Indicated With Boxed Room Callout Numbers, Including The Callout For Floor Finishes And Wall Finishes.  Floor Elevations Shall Be Indicated In The Floor Plans. This Shall Be In Reference To The Natural Grade Line Or The Established Finished Floor Lines Of The Adjoining Existing Buildings.  The Location Of Mechanical Equipment, E.g. Air Conditioning Shall Be Indicated In The Floor Plans. This Shall Be Consistent With The Mechanical And Electrical Plans.  Door Callouts Shall Be Circles With The Proper Numbering, E.g. D-01.  Window Callouts Shall Be Hexagons With The Proper Numbering, E.g. W-01. 4. Elevations And Sections  Finish Floor Lines And Top Of Truss Lines Shall Be Consistent In All The Elevations, Sections And Structural Plans And Details. 5. Reflected Ceiling Plans  Reflected Ceiling Plans Shall Be Indicated With Boxed Room Callout Numbers, Including The Callout For Ceiling Finishes And Lighting Fixtures.  Ceiling Height Relative And In Reference To The Finish Floor Line Shall Be Indicated In The Reflected Ceiling Plans In Each Room With Boxed Dimensions. This Is To Ensure That The Ceiling Heights Of All Rooms Are Established Whether Or Not Reflected In The Sections.  The Description And Location Of The Fixtures, E.g. Lighting, Smoke Detectors, Air Condition Vents, Exhaust Fans, In The Reflected Ceiling Plans Shall Be Consistent With The Electrical And Mechanical Plans. 6. Roof Plans  Location Of All Downspouts Shall Be Indicated In The Roof Plans. 7. Doors And Windows  Door And Window Schedules Shall Indicate The Type Of Door Or Window, The Number Of Sets, The Location/s Of The Door Or Window, The Materials And Accessories Included And Other Special Specifications, E.g. Color Or Finish. All Windows Above Ground Floor Should Be Of Awning Window And All Awning Windows Should Be A 45-deg. Opening Angle. 8. Details  Provide A Minimum Of One (1) Bay Section Of A Scale Not Smaller Than 1:50 Meters For Each Major Building Preferably Cut Along The Area With Special Construction Design.  Provide Spot Detail Plans, Elevations And Sections Of A Scale Not Smaller Than 1:10 Meters For Special Designs With Aesthetic Treatment And Ornamentation.  Provide Detailed Plans Of A Scale Not Smaller Than 1:50 For All Areas Needing Tile Pattern, E.g. Lobby, Corridor, Entrance Walk, Showing The Position And Pattern Of Tiles.  Centerline Location Of Plumbing Fixtures Shall Be Indicated In Detailed Plans With Lines Of Reference And Its Corresponding Dimensions. This Is To Indicate The Exact Locations Of The Plumbing/sanitary Roughing-ins. C. Site Works 1. The Master Site Development Plan Of The Hospital Shall Include The Following:  Contour And Survey Of The Lot, Including Bearing And Distance Of The Property Line  Road Network And Curbs And Sidewalks  Parking Spaces  Reference Location Of Existing Trees  Reference Location And Footprint Of Existing Buildings, With The Corresponding Building Names And Dimensions, Including Distances Between Adjacent Buildings, And Distances Between Buildings And The Nearest Property Line  Reference Location Of Utilities, E.g. Water Reservoirs, Septic Tank, Wastewater Treatment Plant, Powerhouse, Transformers, Waste Storage Area, Security Outposts 2. The Layout Of The Buildings On The Site Shall Be Zoned According To The Service It Provides:  The Outer Zone Shall Include All Front-line Services, E.g. Emergency, Out-patient, X-ray, Laboratory And Other Ancillary Departments.  The Inner Zone Shall Include The Wards.  The Deep Zone Shall Include Services Like The Operating Room, Delivery Room, Nursery, Intensive Care Unit And Other Sensitive Hospital Services.  The Service Zone Shall Include Non-medical Services But Are Essential To Hospital Operations, E.g. Staff Lounge And Lockers.  There Shall Be A Separate Road Network And Entry/exit For The Public And The Service Vehicles, E.g. Ambulance, Waste Collection Vans, Delivery Trucks.  In Limited Lot Areas, Buildings Should At Least Be Spaced Four (4) Meters Apart To Allow Natural Light And Ventilation.  Covered Walkways Shall Be Provided For Access And Connection To All The Buildings.  Ramps Shall Be Provided In All Main Entrances Of The Buildings And Other Access Openings To Walkways Leading To Other Buildings. D. Building Architectural Works 1. Floor Plans  The Structural, Sanitary, Plumbing, Electrical And Mechanical Designs Are Required To Refer To The Architectural Plans And Specifications In Case Of Discrepancies. If An Engineering Design Will Have Any Possible Conflict Or Interference On The Architectural Design, The Latter May Be Adjusted Provided That The Aesthetic Value Will Not Be Compromised.  The Architectural And Engineering Plans Shall Be Consistent All Throughout In Terms Of Dimensions And Locations Of Columns, Beams, Walls, Roof Line, Conduits, Ducts, Pipes, And Fixtures, Among Others. Column And Beam Grid Lines Shall Also Be Consistent In All The Architectural And Engineering Plans.  Verify And Coordinate Floor Plans With The Mechanical, Electrical And Sanitary Design With Regard To The Requirements For Mechanical Rooms, Ahu Rooms, Electrical Rooms, Pipe Chase, And Other Engineering Requirements.  Public Toilets Shall Have Provisions And Fixtures For Persons With Disability As Required By Bp 344. If Enough Space Allows, Toilets Specially Made And Designated For Persons With Disability Is Preferable. 2. Walls  Exterior Walls Shall Be 200mm. Thick, While Interior Walls Shall Be 150mm. Thick. This Is Indicative Of The Finished Wall Thickness Including The Plastering And Tile Works.  Double Layer Of Drywall: Use Two Layers Of Drywall On Either Side Of A Metal Or Wood Stud Frame For Enhanced Soundproofing.  Acoustic Insulation: Use High-density Insulation Like Mineral Wool Or Acoustic Fiberglass In Wall Cavities To Absorb Sound.  Higher Mass: Increase The Wall's Mass With Materials Like Masonry Or High-density Concrete, Which Can Significantly Reduce Sound Transmission.  Toilet Wall Tiles Shall Be 300mm. X 300mm. For Areas Of Six (6) Square Meters Or Below. Toilet Wall Tiles Shall Be 300mm. X 600mm. For Areas Above Six (6) Square Meters.  Layout And Work On Wall And Floor Tiles Must Be Aligned, Plumb, Level, And Square.  All Edges, Corners And Intersections Of Toilet Tiles, Including The Top-most Tile Not Reaching The Ceiling Shall Be Provided With Polyvinyl Chloride Tile Trims.  Tile Color And Design Shall Be Approved First Before Installation. 3. Floors  If Floor Tiles In Two Adjacent Rooms With Different Material, Color Or Design Meet At The Door Opening, The Cut Shall Be Located Middle Of The Door Thickness When In A Closed Position. Provide Details In The Floor Pattern Design.  Floors At The Openings Of Toilets For Persons With Disability Shall Be Sloping. Indicate In The Plans And Sections.  The Size Of The Toilet Floor Tiles Shall Be 300mm. X 300mm. For Areas Of Six (6) Square Meters Or Below. Toilet Floor Tiles Shall Be 300mm. X 600mm. For Areas Above Six (6) Square Meters. Indicate The Tile Pattern.  The Size Of The Pantry/lounge Floor Tiles Shall Be 600mm. X 600mm. Indicate The Tile Pattern.  The Size Of The Floor Tiles Of The Offices And Wards Shall Be 600mm. X 600mm, Or Bigger Depending On The Proportion To The Size Of The Room. Indicate The Tile Pattern.  The Size Of The Floor Tiles Of The Lobby And Corridor Shall Not Be Less Than 400mm. X 400mm. The Tile Size Of 600mm. X 600mm. Is Recommended For Bigger Areas. Indicate The Tile Pattern.  Layout And Work On Wall And Floor Tiles Must Be Aligned, Plumb, Level, And Square.  All Edges, Corners And Intersections Of Toilet Tiles, Shall Be Provided With Polyvinyl Chloride Tile Trims.  Tile Color And Design Shall Be Approved First Before Installation. 4. Ceiling Works  Ceiling Height For Areas With Special Aesthetic Treatment, E.g. Lobby, Major Conference Room, Auditorium, Executive Office, Shall Be Proportional To The Area Or Room Or As Required By The Designer. However, This Shall Not Be Lower Than 2700mm. Provide Details.  If Acoustic Boards On Aluminum T-runners Would Be Used For The Ceiling, Layout Should Be On Center And Avoiding Cut Pieces. If The Remaining Perimeter Of The Ceiling Is Less Than 600mm. Wide, It Shall Be Designed Complimentary With Fiber Cement Boards On Light Gauge Metal Furring. Likewise With Acoustic Boards In Big Areas, E.g. Offices, And Wards, Shall Be Designed In A Way To Break The Redundancy. Provide Details.  Soffit Of Exterior Beams And Slabs Shall Have Drip Moulds To Prevent Damage Due To Water Sipping Into The Eaves Or Ceiling. Section Details Shall Be Required To Show The Drip-mould.  Acoustic Panels: Adding Absorptive Finishes, Such As Fabric-covered Acoustic Panels, Can Help To Dampen Internal Reflections And Improve Sound Quality Within Rooms, Although These Don’t Block Sound But Reduce Reverberation. 5. Doors And Windows  Major Rooms That Require Security Shall Have Sturdy Doors E.g. Wood Panel, And Metal.  Minor Rooms That Do Not Require Security Shall At Least Have Wood Flush Doors.  Toilets And Other Wet Areas Shall Have Steel Doors.  Heavy-use Doors, E.g. Operating Rooms, Delivery Rooms, Pwd Toilet Doors Should Be Provided With Stainless Steel Kick Or Push Plates And Door Closers.  Fire Escape Doors Should Be Provided With Panic Hardware And Door Closers, And Shall Conform With The Requirements Of The Fire Code Of The Philippines.  Aluminum Frames Of Glass Doors Shall Be Powder-coated.  Door Finish And Color Shall Be Approved First Before Application.  Window Sills Shall Be Slightly Sloped Outwards To Prevent Damage To Windows And Paint Due To Water Seepage. Section Details Shall Be Required To Show This Slope.  All Doors Of A High-occupancy Room Shall Swing Outwards And As Required By The Fire Code Of The Philippines.  Door Jambs With No Moulding/casing Installed On Concrete Walls Shall Have Construction Grooves All Around. Provide Details.  All Doors And Windows Shall Have Reinforced Concrete Lintel Beams. Provide Details.  Door Seals And Frames: For Soundproofed Rooms, Also Use Solid-core Doors With Perimeter Seals To Prevent Sound From Leaking Through Door Frames. 6. Stairs, Ramps And Corridors  Ramps For Persons With Disability Shall Have A Slope Not Higher Than 1:12. Handrails And Clearances Shall Conform With The Requirements Of Bp 344.  Regular Stairs Shall Have Risers At 150mm. High And Treads At 300mm. Wide. Fire Stairs Could Have A Maximum Riser At 200mm. And Tread At 250mm. Handrails Shall Be 1100mm. High. Clearances Shall Conform With The Requirements Of The Fire Code Of The Philippines.  Corridors Shall Have A Minimum Unobstructed Width Of 2450mm. This Shall Be Measured Clear From The Surface Of The Finished Wall And Not On-center Of The Rough Chb Wall.  Corridors Shall Not Be Areas For Temporary Or Permanent Storage Of Stretchers, Wheelchairs, Trolleys, Food Carts, Oxygen Tanks Or Other Movable Hospital Equipment. Storage Or Parking Spaces Shall Be Provided For These.  Corridors And Exit Doors Shall Conform With The Requirements Of The Fire Code Of The Philippines. 7. Fixtures And Accessories  Three-way Electrical Light Switches Shall Be Provided At The Foot And The Top Of The Stairs Per Floor. Likewise, At Both Ends Of A Long Corridor.  Electrical Light Switches Shall Be Located By The Knob Side Of The Door.  Electrical Switches And Outlets Shall Be Installed Plumb And Level.  Public Toilets Shall Always Be Provided With Heavy-duty Soap Dispensers And Electric Hand Dryers.  Public Toilets Shall Always Be Provided With Stainless Steel Handrails In Conformity To The Requirements Of Bp 344.  A Drainage Line Shall Be Provided For Window-type Air Conditioners. Likewise, Split-type Air Conditioners Located In The Interior Part Of The Building Shall Be Located Adjacent To Areas With Drainage Lines, E.g. Toilets, Downspouts, Balconies.  Seal Gaps And Openings: Ensure All Joints, Gaps, And Penetrations (e.g., Electrical Outlets, Ducts) Are Sealed With Acoustical Caulk Or Gaskets To Prevent Sound Leakage.  Sterile Area Lighting Type: Use Sealed, Recessed, Or Surface-mounted Led Fixtures That Are Flush With The Ceiling Surface To Prevent Dust Accumulation. 8. Roofing Works  The Section Of The Roof Gutters Shall Be Designed, In Case Of A Clogged Downspout, So That The Overflow Of Water Will Be Directed Outside Of The Building And Not Towards The Eaves Or Interior Ceiling To Prevent Any Damage. Provide Details.  Avoid Valley Or Inside Gutters In Roof Design. But In Cases Required In Aesthetic Design, Valley Or Inside Gutters Shall Be In Stainless Steel Or Concrete Gutters With Membrane-type Waterproofing, And The Section Shall Be Designed With A Capacity For Big Volume To Prevent Any Damage Due To Overflow. Provide Details.  Parapets, Designed As A Roof Protection From The Winds, Must Be Designed To Satisfy The Preceding Parameters. Provide Details.  The Slope Of The Roof Shall Not Be Less Than 30 Degrees. 9. Painting  Painted Ceiling Shall Be In Flat Latex Finish, While Cornices And Mouldings Shall Be In Gloss Enamel Finish.  Painted Interior Wall Shall Be At Least In Semi-gloss Latex Finish For Ordinary Rooms, E.g. Offices, Unless Specified To A Higher Type Of Paint.  Patient-related Rooms, E.g. Emergency Rooms, Out-patient Departments And Wards, Shall Be In Anti-bacterial And Odor-absorbent Paint Finish.  Special Rooms, E.g. Operating Rooms, Delivery Rooms, And Laboratories Shall Also Be In Anti-bacterial And Odor-absorbent Paint Finish.  Painted Exterior Wall Shall Be At Least In Moisture-resistant/water-repellent Solvent-based Paint Finish, Textured Or Smooth, Unless Otherwise Specified.  Paint Color And Shade Shall Be Approved First Before Application. D. Specific Requirements 1. Provide Spot Detail Plans And Sections Of The Following:  Gutter, Eaves, And Parapet  Ceiling - Covelight, Special Connections And Design, Mouldings, Valances  Stairs - Handrail, And Baluster Design  Ramps - Handrail Design And Floor Pattern  Doors, Windows And Gates - Grille Works,  Special Architectural Treatment And Design, E.g. Façade Design, Special Window And Door, Counter/transaction Window  Special Carpentry Works, E.g. Partitions, Cabinetry  Building And Room Signages And Wayfinding Systems  All Pwd Toilets Shall Be Labelled “all Gender / Pwd Toilet”  Other Details As May Be Required 2. Provide Room Data Sheets, Including Detail Floor Plan, Ceiling Plan And Sections Of The Following Rooms, In Coordination With The Requirements Of The Electrical, Sanitary And Mechanical Designs: A. Office, Including Furniture Arrangements And Outlets With Specific Dimensions Of The Location Of Fixtures And Accessories, And In Coordination With The Requirements Of The Electrical And Mechanical Engineering Design. B. Wellness Area C. Waiting Area D. E. (all Blanks Shall Be Filled As Required By Or Applicable To The Project.) E. Summary Of Materials  Materials To Be Used Shall Be Fire-resistant, Non-toxic, Moisture-resistant And Termite-resistant, E.g. Fiber Cement Board, Light-gauge Steel Frame, Polyvinyl Chloride Ceiling Panels.  Wet Areas, E.g. Toilets, And Pantry/lounge Shall Use Non-skid/non-slip Vitrified Ceramic Floor Tiles.  Heavy Traffic Areas, E.g. Lobby, And Corridor Shall Use Heavy-duty Seamless Granite Floor Tiles Or A Higher Type Of Floor Material.  Vinyl Floor Tiles For Sterile Areas Of Delivery & Nicu Suite Shall Be Homogenous And Not Less 3mm. Thick.  Ramps And Stairs Shall Use Non-skid/non-slip Floor Tiles, Materials As Specified.  Aluminum T-runners Shall Be Powder Coated.  Metal Rod Hangers With Adjustable Clips, And Not Galvanized Iron Wires, Shall Be Used To Support And Suspend The Aluminum T-runners And Light Gauge Metal Furrings.  Roofing Sheets Shall Be Ga.# 24 Aluminum-coated, Pre-painted, And Pre-formed. F. Drawing Requirements: See Attached Doh Checklist Of Drawings. -end Of Architectural Design Parameters- Xiv. Design Parameters (structural/civil Works) A. Codes And Standards The Civil/structural Design Shall Be In Accordance With The Following Codes And Standards  Codes 1. National Structural Code Of The Philippines (nscp) 2010 2. National Building Code Of The Philippines And Its Revised Irr 3. Accessibility Law 4. Local Codes And Ordinances  Standards 7. Bureau Of Product Standards (bps) 8. Philippine National Standards (pns) 9. Dpwh Blue Book 10. American Concrete Institute (aci) 11. American Society For Testing Materials (astm) 12. American Welding Society (aws) B. Site Works Based On The Master Site Development Plan Of The Hospital, Provide Where Applicable Complete Design And Details Of Hospital Road (concrete With Curb And Gutter, Including Drainage) Network, Walkways, Parking Areas And Fencing. 1. The Main Hospital Road Shall Be Capable Of Two-way Traffic (at Least 6mts. Width) With A Minimum Thickness Of 150mm (8 Inches). Concrete Strength Should Be At Least 3000psi. Interior Roads (leading To Support Facilities) Shall Be Designed To Accommodate Delivery Vehicles, And Fire Trucks In Case Of Emergency. 2. Walkway Should Be At Least 100mm Thk. With Concrete Strength Of 2500psi. Ramps Should Be Provided, Instead Of Steps, For Any Change In Elevations. 3. Parking Area Slabs Should Be At Least 150mm Thk. With Concrete Strength Of 3000psi. 4. Fences Should Be Seen Through In Front Of The Hospital While The Tree (3) Other Sides Should Be Concrete Hollow Blocks With Minimum Height Of 2 Meters And To Be Provided With Perimeter Lighting. See-through Fence Design Will Be Made Of 32mm Square Bars Spaced At 100mm On Center And Provided With Three (3) Concrete Hollow Blocks (45mm High) Zocalo Walls. C. Buildings 1. The Hospital Buildings Should Be Designed Using A Seismic Importance Factor Of 1.5 For The Immediate Occupancy Category. Buildings Should Be Designed In Accordance With Nscp Requirements Up To Magnitude 7 For Those Near Seismic Source Type A. Seismic Gaps Between Buildings (old And New) Should Be Properly Observed. 2. The Hospital Buildings Should Be Designed Also Using Wind Importance Factor Of 1.15 (especially For Design Of Trusses/roofing System). Concrete Gutters And Parapet Walls Should Be Provided As Additional Protection To The Roofing System During Strong Typhoons. Wind Velocity Of 300-350 Kph Shall Be Considered Upon The Recommendation Of Structural Engineer 3. The Structural Designer Should Verify With Philippine Volcanology And Seismology (phivolcs) The Distance Of The Proposed Hospital To Nearest Active Fault Lines And With The Denr For Geo-hazard Mapping. 4. Soil Investigation (at Least Three Boreholes) Should Be Conducted To Determine Soil Bearing Capacity And Recommended Foundation Design (applicable Even For One Storey Structure). 5. The Structural Designer Is Encouraged To Use Fire-resistive And Non-toxic Materials. D. Details – The Following Shall Be Provided: 1. Connection Details Of Beams And Columns Following The Requirements Of Nscp On Confined Areas. 2. Connection Of Trusses To Beams And Columns. 3. Splicing Details Of Reinforcing Bars On Columns And Beams And The Required Bar Cut-off Points. 4. Details For Connection Of New Construction & Old Construction Structural Members Such As Expansions Joints For Thermal Expansion/contraction. 5. Include Thermal Expansion/contraction Prevention Methodologies Specifically On Soft Joints Areas Between Structural And Architectural Members. E. Summary Of Materials 1. Concrete Shall Be Portland Cement And Conforming To Astm Specification C150, Type I To Type Ii 2. Coarse Aggregates Shall Consist Of Washed Gravel, Crushed Stone Or Rock Or A Combination Thereof Conforming To Astm C33 3. Concrete Hollow Blocks Shall Be A Standard Product Of Recognized Manufacturer Conforming To Pns 16 With At Least 350psi Strength. 4. Reinforcing Bars Shall Conform With Pns Grade 60 For 16mm Dia. And Above And Pns Grade 40 For 12mm Dia. And Below. 5. Structural Steel Shall Conform With Astm A36/a6m 6. Bolts And Studs Shall Conform With Astm A 325 7. Welding Electrodes Shall Be E60 Or E 70 And Conform With Aws F. Drawing Requirements: See Attached Checklist -end Of Structural/civil Works Design Parameters- Xv. Design Parameters (sanitary/plumbing Works) A. Codes And Standards The Sanitary/plumbing Design Shall Be In Accordance With The Following Codes And Standards.  Codes: 1. National Building Code Of The Philippines And Its New Irr 2. Fire Code Of The Philippines 3. National Plumbing Code Of The Philippines (npcp) 4. Sanitation Code Of The Philippines 5. Existing Local Codes And Ordinances.  Standards: 1. Bureau Of Product Standards (bps) 2. Philippine National Standards For Drinking-water 3. Underwriters Laboratory (ul) 4. Doh National \ Laboratory (nrl) 5. Doh Health Care Waste Management Manual 6. National Water Resources Board (nwrb) 7. National Plumbers Association Of The Philippines (nampap) 8. Philippine Society Of Sanitary Engineers, Inc. (psse) B. Site Works  Based On The Master Site Development Of The Hospital, The Site Works Shall Provide Complete Layout Of The Following: 1. Storm Drainage Network, Indicating Drainage Manholes And Pipe Culvert; 2. Sewerage Pipe Network, Indicating Sewage Manholes, Sewage Pipes And The Location Of The Proposed Sewage Treatment Plant; And 3. Water Supply Network, Indicating The Location Of Water Service Entrance, Cisterns, Elevated Water Tank And Proposed Pump House.  The Storm Drainage Network Shall Accommodate The Magnitude Of Peak Rates Of Surface Run-off Including Drainage Coming From The Buildings. The System Shall Be Capable Of Handling The Design Flows Routing To The Designated Outfall; For Rainfall Calculation And Sizing Of Drainage Pipes, Refer To Table-d2, Appendix-d, National Plumbing Code Of The Philippines And Current Rainfall Record From Pagasa.  The Sewerage Pipe Network Design Shall Accommodate All Sewage Coming From All The Facilities, Conveyed By Gravitational Flow Leading To The Sewage Treatment Plant; Per Capita Wastewater Demand: 100-130 Gal/capita/day Per Bed C. Building Facilities Sanitary/plumbing System 1. Sewer Line And Vent System  Provide Complete Sewer Line And Vent System From All (domestic) Plumbing Fixtures And Floor Drains, Laid By Gravity Flow Leading To The Sewage Treatment Plant (stp);  For Demand Weight Of Fixtures In Fixture Units; Refer To Appendix A, Table A-2, Npcp 2. Wastewater Line And Vent System  For All Wash Areas Dealing And Generating With Oil/grease, Provide Separate Waste Line And Vent System And Solely Tap To The Proposed Grease Trap And Then Connect Its Effluent To The Sewage Treatment Plant.  For Estimated Demand Weight Of Fixtures In Fixture Units; Refer To Appendix A, Table A-2, Npcp Waterline System  Provide Complete Cold Water Supply Pipes To All Plumbing Fixtures. From The Main Water Source, The Water Shall Be Pumped To The Elevated Water Tank (ewt) And Conveyed To The Fixtures By Gravity System And Or Distributed To Fixtures By Transfer Pumped With Constant Pressure Through A Pneumatic Storage Tank, Whichever Is Feasible. 4. Storm Drainage System  Complete Storm Drainage System Shall Be Provided For All Roofs, Canopies, Concrete Ledges And Balconies Including Condensate Drains Laid For Gravity Flow Connected To A Leader/pipe Line Leading To The Natural Ground Level Storm Drainage Network. D. Summary Of Materials  Sewer And Vent Pipes; Unplasticized Polyvinyl Chloride (upvc) Extra Series 1000 (conforming To Iso 3633 Astm D2729 Including Trims And Fittings)  Storm Drainage Pipes; Downspouts, Unplasticized Polyvinyl Chloride (upvc) Extra Series 1000 (conforming To Iso 3633 Astm D2729 Including Trims And Fittings, Bps Certified)  Drainage Pipes; 250mm Dia. And Below, Non-reinforced Concrete Pipe (nrcdp)  300mm Dia. And Above, Reinforced Concrete Pipe (rcdp)  Drainage Manholes; Street Inlet, Curb Inlet, Traffic Type Reinforced Concrete Area Drain/catch Basin, Reinforced Load Bearing Chb  Sewage Manholes; Traffic Type Reinforced Concrete With Standard Steel Brass Cover  Wastewater Pipeline; Extra Heavy (xh) Single Hub, Hub Less Cast Iron Pipes And Fittings (cip) Conforming To Astm Standard 888  Cleanouts; Cast Iron Brass With Countersunk Plug (bps Certified)  Floor Drains/deck Drains; Cast Iron Brass (bps Certified)  Gutter Drains; Cast Iron Dome Type Brass (bps Certified)  Cold Waterline Pipes; For Buildings, Polypropylene Pn10 Fusion Weld Pipes Including Trims And Fittings (bps Certified)  Hot Waterline System; For Buildings, Polypropylene Pn20 Fusion Weld Pipes Including Trims And Fittings (bps Certified)  Trench Grating; Galvanized/stainless Steel Iron Grates  Plumbing Fixtures Including Trims, Fittings And Accessories; (bps Certified)  Water Closet-tank Type Push Button Flush  Lavatory - (pedestal/counter Type) With C-spout Spray Faucet  Kitchen Sink-ga#16 Stainless Steel Seamless Bowl With Gooseneck Faucet  Urinal-wall Hung Flush Valve Type E. Drawing Requirements: See Attached Doh Checklist Standards Based On Revised Irr Of The National Building Code Of The Philippines (pd 1096) -end Of Sanitary/plumbing Works Design Parameters- Xvi. Design Parameters (mechanical Works) A. Codes And Standards The Mechanical Design Shall Be In Accordance With The Following Codes And Standards.  Codes: 1. National Building Code Of The Philippines And Its New Irr 2. Fire Code Of The Philippines 3. Mechanical Engineering Code Of The Philippines (me Code) 4. Existing Local Government Codes And Ordinances.  Standards: 1. Bureau Of Product Standards (bps) 2. Philippine National Standards (pns) 3. Underwriters Laboratory (ul) And Factory Mutual (fm) 4. International Electrotechnical Commission (iec) 1988 5. National Fire Protection Association (nfpa) 6. National Fire Protection Association (nfpa) 99 Standard For Health Care Facilities. 7. American Society Of Heating, Refrigeration And Air Conditioning Engineers (ashrae). 8. Center For Disease Control And Prevention (cdc) Manual. B. Automatic Fire Sprinkler System  The Automatic Fire Sprinkler System Shall Be Composed Of Complete Plans And Drawings Of The Following: 1. Site Development Plan And Vicinity Map, Indicating The Location Of The Buildings, Firewater Reserve Tank, Firewater Line, Yard Loop And Private Fire Hydrant. 2. General Notes, Legends And Symbols Including Schematic Diagram Of The Fire Sprinkler System And Schematic Diagram Of Alarm Monitoring System. 3. Floor Layout And Isometric Layout Of The Automatic Fire Sprinkler System Indicating Pipe Sizes And The Location Of The Pipes, Valves, Sprinkler Heads, Riser Nipples, Fire Hose Cabinets, Sprinkler Main Riser, Drain Pipes, Cross Mains, Branch Lines, Inspector’s Test Connections, Hangers And Sway Braces. 4. Equipment Schedule, Detail Drawings, Fire Pump And Jockey Pump Layout. 5. Architectural, Structural, Electrical And Plumbing Drawings Of The Firewater Tank And Pumphouse.  An Automatic Fire Sprinkler Shall Be Provided In All Hospital Building Except For Those Fire Resistive One-storey Hospital Building.  Hazard Classification Shall Be Light Hazard Occupancy.  Area Of Coverage Shall Be 146 Square Meters And Water Density Shall Be 4.07 Lps/sq. M.  Protection Area Per Sprinkler Head Shall Be 20 Square Meters At 2.2 Meters Minimum Distance Between Sprinklers And 4.2 Meters Maximum Spacing.  All Floor Control Valves Shall Be Equipped With Supervisory Switch, Water Flow Detector And Drain System.  Water Supply Shall Be Horizontal Split Case Centrifugal Fire Pump With Diesel Engine Or Ac Motor And A Vertical In-line Jockey Pump With Controller.  Firewater Reserve Tank Shall Be Ground Level Monolithic Concrete Tank Sized For A Minimum Of 30 Minutes.  Hydraulic Calculations Report Shall Be Based On Npfa-13 Format. C. Ventilation And Air Conditioning System  The Ventilation And Air Conditioning System Shall Be Composed Of Complete Plans And Drawings Of The Following: 1. General Notes, Legends And Symbols Including Schematic Diagram Of The Ventilation And Air Conditioning System. 2. Floor Layout Of The Ventilation And Air Conditioning System Indicating The Capacity And Location Of The Air Conditioners And Fans. 3. Duct Layout Indicating Duct Sizes, Route And Location Of The Dampers, Diffusers, Return Air Register, Hangers And Sway Braces. 4. Refrigerant Piping Layout Indicating Pipe Sizes, Location Of Valves, Hangers And Sway Braces. 5. Equipment Schedule And Details Drawings Of Air Conditioners And Ventilating System.  Air Conditioning System Shall Be Provided In All Patient’s Private Rooms, Operating Rooms, Delivery Rooms, Offices And Other Areas Where Conditioned Air Is Necessary.  Cooling Load Calculations Report Shall Be Manual Or Computer Generated, Hourly Analysis Program Which Includes Heat Transmission Coefficients, Solar Heat Gain Factors And Corrected Cooling Load Temperature Difference Calculations.  Split Type Air Conditioners Will Be Used At Areas With Larger Capacities.  Window Type Air Conditioners Shall Be Used In Areas With Exterior Wall Exposure.  Centralized Air Conditioning Will Be Used As Indicated On Space Requirements (e.g. Sterile Hallways).  Maintain An Air Change Rate Greater Than Or Equal To 12 Air Changes Per Hour Or 145 Liters Per Second Per Patient.  Ceiling Cassette Type Exhaust Fans With Integral Air Diffuser Shall Be Provided In All Toilets.  Ceiling Fans, Orbit Type With 360° Oscillation Shall Be Provided In All Non-air-conditioned Rooms, As Mentioned On Space Requirements. D. Summary Of Materials 1. Automatic Fire Sprinkler System A. The Fire Pump Shall Be Ul Listed/fm Approved, Diesel Engine Or Electric Motor Driven, Designed Specifically Intended For An Automatic Water Sprinkler Protection System. B. The Jockey Pump Shall Be Ul Listed/fm Approved, Electric Motor Driven, 220v, 3-phase, 60 Hertz, And Electric Power Connection. C. Sprinkler Head Shall Be Ul Listed/fm Approved, Pendant, Upright Or Sidewall Unit, 83 Lpm Flow Capacity Per Head And Temperature Fusing At 57.5° C To 74°c. D. The Alarm Assembly Shall Be Ul Listed/fm Approved, Constructed And Installed That Any Flow Of Water From The Sprinkler System Equal To Or Greater Than That From The Single Automatic Head Shall Result In An Audible And Visual Sign In The Vicinity Of The Building. E. Alarm And Supervision System Of The Automatic Water Sprinkler Shall Include The Monitoring Water Flow Switch At Each Floor Of The Building, Fire Pump And Jockey Pump Running Condition And Power Supplies, Level Of Water In The Reservoir And Control Valves. F. Pipes Shall Be B.i. Schedule 40. Screw Fittings Shall Be Used For Inside Piping. 2. Air Conditioning And Refrigeration System A. Refrigerant Pipes Shall Be Copper Tubing, Type L Or K Black Steel Pipe, Schedule 40 For Size Of 100mm Diameter And Smaller. Pipe Over 100mm Shall Be Black Steel Pipe Schedule 40. B. Black Steel Pipes Shall Be Standard Seamless, Lap-welded, Or Electric Resistant Welded For Size Of 50mm Diameter And Larger, Screw Type For Size 38mm Diameter And Smaller, Fittings For Copper Tubing Shall Be Cast Bronze Fitting Designed Expressly For Brazing. C. Pipe Insulation Shall Be Performed Fiberglass Or Its Equivalent. The Insulating Materials Shall Be Covered With 100mm X. 13mm Thick Polyethelene Film, Which Shall Be Overlapped Not Less Than 50mm. D. Ducts Shall Be Galvanized Sheet Steel Of Standard Gauges. E. Ductwork Insulation Materials Shall Be Rigid Board Made Of Styropor Or Equivalent 25mm Thick For Ground And Top Floor, 13mm Thick For Intermediate Floor. -end Of Mechanical Works Design Parameters- Xvii. Design Parameters (electrical/auxiliary Works) A. Codes And Standards The Electrical System Design Parameters Shall Be In Accordance With The Following Codes And Standards.  Codes: 1. Philippine Electrical Code 2. National Electrical Code 3. Fire Code Of The Philippines 4. National Building Code Of The Philippines And Its New Irr 5. Existing Local Codes And Ordinances  Standards: 1. Bureau Of Product Standards (bps) 2. Underwriters Laboratory (ul) 3. National Fire Protection Association 4. International Electrotechnical Commission (iec) 5. Illumination Engineering Society (ies) 6. National Electrical Manufacturer’s Association (nema) 7. Doh Manual On Technical Guidelines For Hospital And Health Facilities Planning And Design B. Building Facilities Electrical System 1. Lighting System  Provide And Install Adequate Normal Branch Circuits For Lighting System To All Areas Using The Standard Lighting Design Analysis. Utilize The Standard Illumination Requirements Per Area Of Concern Using The Preferred Particular Type Of Luminaires. 2. Power System  Provide And Install Adequate Normal Branch Circuits For The Power System. 3. Standby/emergency System  Provide And Install Adequate Life Safety And Critical Emergency Branch Circuits For Lighting Or Utilization Equipment Connected To The Alternate Power Source. 4. Auxiliary System Provide And Install The Following Auxiliary System:  Communication System A. Telephone System B. Local Area Network System C. Public Address Paging System D. Private Branch Exchange (pabx) E. Master Or Cable Antenna Television  Fire Alarm System  Security System 5. Lightning Protection System  The Building Lightning Protection System Shall Include Roof-mounted Air Terminals Grounding Conductors, Ground Rods, Conduits, Clamps, And Auxiliary Equipment As Required For A Complete And Operational Lightning Protection System. 6. Provide Details Of The Following:  Lighting Fixtures/luminaires  Panelboard And Circuit Breakers  Switchgear And Other Metering Devices  Electrical And Hospital Equipment  Installation And Termination Of Auxiliary And Other Special Devices And Equipment  Power And Telephone Handholes (as May Be Required)  Pedestal And Service Entrance To Bldg.  Grounding System Layout  Substation/power House And Electrical Room  Transformer And Generator Mounting  Others As May Be Required. C. Summary Of Materials  General Lighting Luminaries: Fixtures Type Shall Be As Indicated On The Lighting Layout Plan. 1. Fluorescent Lamp Shall Be Linear, Circular Or Self-ballasted Compact Fluorescent Lamps. 2. Fluorescent Lamps Shall Be Cool Or Warm White And 3. Lamp Holders Shall Be Made Of Thermosetting Plastic. 4. Fluorescent Ballast: Magnetic Or Electronic Type With High Power Factor Or High Frequency Energy Saving Type. 5. Fluorescent Fixture Housing Shall Be Steel Sheet With High Reflectance Powder Coat Paint Finish. 6. Downlights And Pin Lights Shall Be Of Heavy Gauge Spun Aluminum Equipped With Lamp As Indicated On The Drawings. 7. Other Special Lighting Requirements Shall Be As Approved By The Implementing Agency.  Wiring Devices: Wiring Devices Shall Be Non-automatic Control Devices, The Contact Is Guaranteed By The Pressure Of The Special Spiral Springs. 1. Switches Shall Be Of 15a, 250v Or 300v Except As Otherwise Noted And Approved. Terminals Shall Be Screw-type Or Quick-connected Type. 2. General Use Receptacle Shall Be 15a, 240v Grounding Type Unless Otherwise Indicated On The Drawings. 3. Special Purpose Receptacles Shall Be As Called For On The Drawings. 4. Matching Plugs Shall Be Supplied.  Panelboards And Circuit Breakers: The Panelboard And Circuit Breakers Shall Be Equipped With Molded-case Circuit Breakers And Shall Be The Type As Indicated In The Panelboard Schedule And Details. 1. Provide Molded-case Circuit Breakers Of Frame, Trip Rating And Interrupting Capacity As Shown On The Drawings. The Circuit Breakers Shall Be Quick-make, Quick Break, Thermal-magnetic, Trip-indicating And Shall Have Common Trip On All Multiple Breakers With Internal Trip Mechanism. 2. All Current-carrying Parts Of The Panelboards Shall Be Plated. Provide Solid Neutral (s/n) Assembly When Required. The Assembly Shall Be Isolated From The Enclosure.  Electrical Conduits, Boxes And Fittings: All Conduits, Boxes And Fittings Shall Be Standard Rigid Steel, Zinc Coated Or Galvanized. 1. Rigid Steel Conduits (rsc) 2. Rigid Metal Conduits (rmc) 3. Intermediate Metal Conduits (imc) 4. Electrical Metallic Tubing (emt) 5. Unplasticized Polyvinyl Chloride (upvc) If Required Shall Be Schedule 40.  Conductors: Wires And Cables Shall Be Of The Approved Type And Unless Specified Or Indicated Otherwise, All Power And Lighting Conductors Shall Be Insulated For 600 Volts. 1. The Conductors Used In The Wiring System Shall Be Of Soft-annealed Copper Having A Conductivity Of Not Less Than 98% Of That Of Pure Copper And Insulated For 60° C Temperatures. 2. All Conduits Of Convenience Outlets And Wire-ways For Lighting Branch Circuit Home-runs Shall Be Wired With A Minimum Of 3.5 Mm Square In Size.  Master Antenna Television (matv) And Cable Television (catv) System: 1. Two Sources Of Tv Signals Shall Be Provided To The Building. One (1) Shall Be From A Master Antenna Installed At The Roof Or Within A Suitable Area Of The Building And The Other Will Be From A Commercial Cable Television Service. 2. The Master Antenna System Shall Consist Of Fm, Vhf And Uhf Antennas, Combiner, Distribution Amplifier, Coaxial Cables, Splitters, Tap-offs And Tv Outlets. 3. There Shall Be Individual Trunking For Master Antenna And Cable Television Rising In The Building.  Structured Cabling & Telephone System: 1. A Minimum Provision For Estimated 500 Mixed Pabx Extension And Direct Telephone Lines Shall Be Required For Tertiary Hospitals. 2. Final Details Of The System Shall Follow Specific Requirements, Quantity And Type Of Service.  Fire Detection And Alarm System: 1. The Fire Detection And Alarm System Shall Be Of Multiplex, Microprocessor- Controlled Addressable Or Zonal Conventional Fire Detection, Alarm And Communication System. 2. The System Shall Consist Of Full Integration Automatic Fire Detection, Voice Alarm Communication And Fire Fighters Telephone System. 3. The System Shall Consist Of Control Station, Mimic Panel Initiating And Indicating Devices, Control Modules And System Of Wirings. 4. Actuation Of The Protective Signaling System Shall Occur By Manual Pull Station, Automatic Smoke Or Heat Detector, Sprinkler Flow Switch And Tamper Switch. 5. The System Shall Be Able To Monitors The Status Of Flow Switches And Supervisory Switches Installed At The Sprinkler System Risers. These Monitoring Points Are Also Addressable Or The Conventional Zonal In The Same Way As The Detectors Are Making Them Easily Recognizable At The Control Panel. 6. Occupant Notification Shall Be Accomplished Automatically. Notification Will Be General, Audible Alarm Type Complying With Appropriate Section Of Nfpa. 7. The System Shall Be Installed With Provisions For Future Connection To The Nearest Fire Services Station In The Locality.  Security System: 1. The Security System Shall Include Intrusion Detection And Alarm, Cctv, Access Control Or As Maybe Required.  Ventilation And Air Conditioning System The Ventilation And Air Conditioning System Shall Be Composed Of Complete Plans And Drawings Of The Following: 1. General Notes, Legends And Symbols Including Schematic Diagram Of The Ventilation And Air Conditioning System. 2. Floor Layout Of The Ventilation And Air Conditioning System Indicating The Capacity And Location Of The Air Conditioners And Fans. 3. Duct Layout Indicating Duct Sizes, Route And Location Of The Dampers, Diffusers, Return Air Register, Hangers And Sway Braces. 4. Refrigerant Piping Layout Indicating Pipe Sizes, Location Of Valves, Hangers And Sway Braces. 5. Equipment Schedule And Details Drawings Of Air Conditioners And Ventilating System. A) Air Conditioning System Shall Be Provided In All Patient’s Private Rooms, Radiologic And Imaging Area, Operating Rooms, Delivery Rooms, Laboratories, Critical Care Areas, Offices And Other Areas Where Conditioned Air Is Necessary. B) Cooling Load Calculations Report Shall Be Manual Or Computer Generated, Hourly Analysis Program Which Includes Heat Transmission Coefficients, Solar Heat Gain Factors And Corrected Cooling Load Temperature Difference Calculations. C) Split Type Air Conditioners Will Be Used At Areas With Larger Capacities. D) Window Type Air Conditioners Shall Be Used In Areas With Exterior Wall Exposure. E) Centralized Air Conditioning Will Be Used Only If Feasible. F) Design Of All Critical Areas Shall Be Laminar Or Positive Pressure, Wherein The Supply Air Is 10% More Than Exhaust Air. G) All Infectious Isolation Rooms, Such As Tb And Sars, Shall Be Negative Pressure, Wherein The Exhaust Air Is More Than 10% Of The Supply Air. H) Maintain An Air Change Rate Greater Than Or Equal To 12 Air Changes Per Hour Or 145 Liters Per Second Per Patient. I) Ceiling Cassette Type Exhaust Fans With Integral Air Diffuser Shall Be Provided In All Toilets. J) Ceiling Fans, Orbit Type With 360° Oscillation Shall Be Provided In All Non-air-conditioned Rooms, Such As Waiting Area.  Air Conditioning And Refrigeration System 1. Refrigerant Pipes Shall Be Copper Tubing, Type L Or K Black Steel Pipe, Schedule 40 For Size Of 100mm Diameter And Smaller. Pipe Over 100mm Shall Be Black Steel Pipe Schedule 40. 2. Black Steel Pipes Shall Be Standard Seamless, Lap-welded, Or Electric Resistant Welded For Size Of 50mm Diameter And Larger, Screw Type For Size 38mm Diameter And Smaller, Fittings For Copper Tubing Shall Be Cast Bronze Fitting Designed Expressly For Brazing. 3. Pipe Insulation Shall Be Performed Fiberglass Or Its Equivalent. The Insulating Materials Shall Be Covered With 100mm X. 13mm Thick Polyethylene Film, Which Shall Be Overlapped Not Less Than 50mm. 4. Ducts Shall Be Galvanized Sheet Steel Of Standard Gauges. 5. Ductwork Insulation Materials Shall Be Rigid Board Made Of Styropor Or Equivalent 25mm Thick For Ground And Top Floor, 13mm Thick For Intermediate Floor. -end Of Electrical Works Design Parameters- Xviii. Design Parameters (green And Safe Health Facilities)  Codes And Standards Green And Safe Health Facilities Shall Be In Accordance With The Following Laws, Codes And Standards.  Global Initiatives & Developments: 1. World Health Assembly Resolution On Universal Health Care (2019) 2. World Health Resolution On Climate Change And Health (2008) 3. Un Resolution On Sustainable Development Goals (2015) 4. Global Action On Patients’ Safety  Laws And Codes: 1. Sanitation Code Of The Philippines Irr Of Chapter Xvii 2. The Local Government Code Of 1991 3. Clean Water Act Of 2004 4. National Building Code Of The Philippines (pd 1096) 5. General Appropriation Act Fiscal Year 2021 (ra 11518) 6. Occupational Safety And Health (ra 11058) 7. Safe Hospital Initiative (2011) 8. Universal Health Care Act (ra 11285) 9. Implementing Rules And Regulations Of Accessibility Law (ra 344) 10. Ecological Solid Waste Management Act Of 2000 (ra 9003) 11. Climate Change Act Of 2009 (ra 9729) 12. Other Related Standards A. Guidelines The Green And Safe Hf Initiative Represents A Climate Smart Paradigm Shift, Away From Traditional Disaster Response To One That Proactively Seeks To Minimize The Health Impact Of Disasters And Emergencies Through Climate Adaptation And Mitigation Measures (including Climate-proofing And Reduction Of The Environmental Footprint), And Preparedness. Consequently, It Is Essential That This Green Manual Is Incorporated Into The Hospital And Hf Development Agenda That Are Backed With Earmarked Resources In The National Budget, And That Has Governance And Support From The Highest Levels Of Government.  The Department Of Health Shall, As Much As Possible, Promote The Greening Of Hospitals And Health Facilities, Including The Improvement Of Energy And Water Efficiency And Conservation, Sustainable Cooling Systems, And Sustainable Healthcare Waste Management In Hospitals.  In Line With Its Continuing Efforts In Green And Safe Hfs, The Doh Shall Encourage National And Local Government Hospitals And Other Hfs To Seek Green Certifications From Green Building Rating System/s For Their New Construction Or Expansion, Repair And Renovation Projects. B. Criteria And Compliance System For Outstanding Green And Safe (climate Smart) Health Facilities.  Criterion Compliance 1. Governance – Leadership And Management, Trainings, Proper Implementation, Commitment 2. Energy Efficiency – Reduction Of Energy Consumption, Use Of Renewable And Clean Energies 3. Water Efficiency, Sanitation And Hygiene – Adequate Water, Water Reuse/recycling, Water Conservation, Rainwater Harvesting. Safe Drinking Water, Proper Use And Maintenance Of Sanitary Toilet Facilities 4. Health Care Waste Management Waste – Segregation, Collection, Storage, Transport, Treatment, Proper Waste Disposal, Recycling 5. Environmentally Resilient Health Facility – Structural Member, Non-structural Member, Emergency And Disaster Preparedness Plan 6. Site Sustainability – Healing Gardens Within, Fresh Air, Herbal Plants, Accessibility, Existence Of Alternative Routes 7. Material Sustainability – Use Of Sustainable Materials, Procurement Of Sustainable And Recyclable Products, Less Use Of Hazardous And Toxic Substances 8. Indoor Environmental Quality – Lighting, Ventilation, Interior Design, Air Quality Management C. Energy Efficiency  Orientate Building & Façade Design To Mitigate Heat Gain. The East And West Facades Receive The Greatest Solar Radiation, And Should Be Designed To Avoid Direct Sun.  Use Of Glass/glazing With A Lower U-value And Shading Coefficient Reduce Solar Heat Gain.  Allow Provision For Easy Access For Maintenance And Cleaning Especially For Curtain Wall System.  Consider Lifespan, Durability And Life Cycle-costing When Selecting Façade Materials.  Install And Use Energy-efficient Lighting Fixtures I.e. Led, Cfl, Slim Type Fluorescent, Etc.  Skylights (if Applicable) And Windows To Maximize Natural Lighting And Ventilation On Selected Areas. Utilizing Daylight As Possible.  Use Of Appliance With Inverter Technology With Variable Frequency Drive Technology.  Window And Door Assemblies Shall Have Complete Gaskets, Weather Stripping, Door Bottom Sweeps And Seals.  All Operable Windows Shall Be Provided With Safety Features For Protection Against Strong Winds, Water Penetration And Protection For Building Occupants Including Child Safety And Security.  Specific Air Exchange Rates Are Usually Attained Through Artificial Ventilation. Adequate Ventilation Throughout The Facility Contributes To Maintaining A Hygienic Environment. Presence Of Functional Windows And Doors, That Allow At Least 6-8 Air Changes Per Hour For Natural Ventilation. For Airborne Infection Isolation Room/s And Er/triage Areas, Greater Or More Than 12 Air Changes Per Hour Is Recommended, While Up To 15 Air Changes Per Hour May Be Recommended For Operating Procedure, Or Delivery Rooms.  Light-colored Building Envelopes Is Also Recommended To Reduce Heat Transfer From The Outside To Inside Of The Building By Having Surfaces With High Solar Reflectance Index (sri). D. Water Efficiency, Sanitation And Hygiene  Optimize Water Conservation Through Installation Of Rainwater Harvesting Cistern Tank  Use Of Waterless Urinals And Dual Flush Water Closets.  Use Of Low-flow & Water Efficient Faucet And Hand-held Bidets.  Use Of Water-saving Shower Heads  For Hospitals, There Must Be At Least One Water Closet For Every Eight Patients In Compliance With Ra 4226 – Hospital Licensure Act.  A Separate Toilet For Male And Female Is Preferred, And Shall Be Pwd Accessible. And, A Separate Toilet For The Staff, With A Provision Of One Toilet For Every Fifteen Personnel Shall Be Applied.  Waterless Urinals Must Be Provided For Male Toilets.  There Should Be Sufficient And Functional Hand-washing Facilities. E. Environmentally Resilient Health Facility  Ground Floor Must Be Above Ground Line And Anticipated Flood Level. F. Material Sustainability  Building Materials, If Applicable, Must Be Locally Sourced To Minimize Carbon Footprint.  Rapidly Renewable And Sustainable Materials Are Also Recommended. Refer To Sec. 16.3.4 Of Doh Green And Safe Health Facilities Manual For List Of Sustainable Construction Materials That Can Be Used.  Use Of Materials (specifically Wet-applied Materials) That Are Low In Vocs (volatile Organic Compounds) G. Site Sustainability  Adopt The Development Controls Indicated In The National Building Code Of The Philippines To Establish The Extent Of The Health Facility Site Can Develop.  Biophilic Design Is Recommended To Help Reduce Stress, Improve Cognitive Function And Creativity, Improve Patients’ Well-being And Expedite Healing.  Porous Pavement Is Recommended At The Site Development To Alleviate Flooding. Landscape Swales Is Also One Solution. H. Indoor Environmental Quality  Harvest Natural Daylight If Applicable.  Acoustic Quality, Especially In Areas/rooms That Needs To Be Soundproofed, Shall Be Maintained.  Use Of Acoustic Privacy Partitions Is Required.  Separate Entrances For Ambulances And Walk-in Patients.  In Procedure Rooms With Windowless Areas, Backlit Photomurals Or Artificially Illuminated Glass Artwork Can Alleviate Feeling Of Claustrophobia.  In Wards And Recovery Rooms, Provide Windows And Natural Illumination As Much As Possible.  Provide Acoustic Privacy In Patient Rooms, Offices, And Examination Rooms With Partitions Of Sound Transmission Class (stc) Of 45.  Noise Level In The Operational Rooms Must Follow The Minimum Noise Standards In Accordance To The Doh Manual Of The Technical Guidelines For Hospital Planning And Design (level 3) Drawing Requirements: See Doh Standard Checklist Based On Revised Irr Of The National Building Code Of The Philippines (pd 1096). Checklist Of Drawing Requirements In The Preparation/evaluation/approval Of Detailed Architectural And Engineering Plans And Other Documents For Infrastructure Project Implementation. -end Of Green And Safe Health Facilities Design Parameters- Xix. Build Aspect Furnish Labour, Materials, Equipment, Paint, Tools And Other Facilities To Complete The Entire Building Including Architectural, Structural/ Civil, Electrical, Mechanical, Sanitary, Communication, Fire Protection, And Other Related Works To Complete The Scope As Specified And/or As Shown On Drawings And Plans 1. General Requirement  Contractor’s Temporary Facility And Lay Down Yard.  Communication And Transmittal, Reproduction, Tarpaulin/billboard And Photos  Material Testing (rsb, Chb, Concrete, Steel)  Safety Requirements (warning Signs, Hardhat, Etc.)  As Built Plan  Demolition, Clearing Work, Permits And Licenses 2. Other Items Of Work  Demolition Of Existing Structures In Affected Areas Or Where The Proposed Project Shall Be Situated, Clearing And Disposal Of All Debris Generated During Construction.  All Serviceable Materials Shall Be Turn Over To Doh-dedvmh Through Its Representative  Soil Excavation And Soil Treatment  Restoration Of Any Damaged Properties During The Construction  Permit Fees, And Other Necessary Documents For The Project Shall Be Shouldered By The Contractor  Temporary Facilities Shall Be Provided During The Construction Period, To Be Constructed Within The Hospital Compound, Which Shall Serve As The Field Office, Storage Of Materials And Bunkhouse For The Workers.  No Implementation Of The Project Without An Approved Plan And Other Related Documents.  Strict Implementation Of (dole Guidelines And Other Standards Applicable) Health And Safety Rules.  Shall Abide By The Medical Center Hospital House Rules  Conduct Weekly Progress And Coordinative Report To The Agency Or Its Representative  Other Items Of Work Not Mentioned Herewith But It Is Very Necessary For Execution And Completion Or Works Shall Be Included And Charge To The Contractor 3. Pre-installation Requirements  All Tests To Be Conducted Shall Be Witnessed By The Hospital Representatives.  Soil Investigation  Concrete Strength Testing  Reinforcing Bar Strength Testing  Concrete Masonry Unit (cmu) Testing  All Plumbing And Sanitary System  Automatic Fire Sprinkler System  Ventilation And Air Conditioning System  All Electrical System  And Other Tests That Necessary To Perform To Ensure The Quality Of The Project  All Certifications And Reports Under Post-installation Requirement Shall Be Submitted To The Hospital Representatives.  The Contractor Shall Submit A Sample Of Materials For Approval Of The Medical Center Chief Prior To Installation.  No Implementation Or Execution Of Work In Any Discipline Without The Approval Of Medical Center Chief Or Through Its Representative  Any Request For Inspection, Approval, Concrete Pouring, Testing And Commissioning Must Be Address To Medical Center Chief Or Must Adhere To The Reporting Protocol As Mentioned Above. -end Of Build Aspect- Checklist Of Drawing Requirements In The Preparation/evaluation/approval Of Detailed Architectural And Engineering Plans And Other Documents For Infrastructure Project Implementation Reference: Revised Implementing Rules And Regulations Of The National Building Code Of The Philippines (pd 1096) Project : Location : Sheet Number Sheet Contents Remarks* Architectural Drawings (as Applicable) A – 1 (a…n) Perspective, Site Development Plan, Vicinity Map/location Plan (2.00 Kms. Radius) Table Of Contents A – 2 (a…n) Floor Plans (scale 1:100m Minimum) Including Furniture Layout When Necessary A – 3 (a…n) Four (4) Elevations (scale 1:100m Minimum) A – 4 (a…n) Two (2) Sections (scale 1:100m Minimum) Including Spot Details When Necessary A – 5 (a…n) Roof Plan/s Showing Downspouts (scale 1:100m Minimum), Including Detail Of Gutter, Downspout, Etc. A – 6 (a…n) Reflected Ceiling Plan/s (scale 1:100m Minimum), Including Details A – 7 (a…n) Details Of Stairs, Fire Escapes/exits, Accessible Ramps, Etc. (scale 1:50m), Including Details Of Railings, Treads, Risers, Etc., In The Form Of Plans, Elevation/section A – 8 (a…n) Details Of Toilets (1:50 M) Including Accessible Toilets In The Form Of Plans, Elevation/section A – 9 (a…n) Details Of Specialized Design Features (scale 1:50 M) Such As Partitions, Cabinets, Etc. And Accessible Design Features A – 10 (a…n) Detail Of Typical Bay Section From Ground To Roof (scale 1:50 M) A – 11 (a…n) Details Of Special Elevations/section Rooms (1:50m) In Form Of Plans, A – 12 (a…n) Schedule Of Doors, Gates, Emergency Exits, Etc. (scale 1:50 M), Including Specifications For Materials And Hardware A – 13 (a…n) Schedule Of Windows (scale 1:50 M), Including Specifications For Materials And Hardware A – 14 (a…n) Schedule Of Finishes For Interior And Exterior Floors, Walls, Ceilings Architectural Technical Specifications Architectural Scope Of Works Architectural Bill Of Quantities * To Be Marked As Either Complying Or Non-complying/complete Or Incomplete By The Evaluator Or To Be Filled With Supporting Comments (use Additional Sheets If Necessary) Evaluated By: ____________________________________________________________ Page 1 Of 6 Checklist Of Drawing Requirements In The Preparation/evaluation/approval Of Detailed Architectural And Engineering Plans And Other Documents For Infrastructure Project Implementation Reference: Revised Implementing Rules And Regulations Of The National Building Code Of The Philippines (pd 1096) Project : Location : Sheet Number Sheet Contents Remarks* Architectural Interior Design Drawings (as Applicable) Aid – 1 (a…n) Floor Plans Showing Layout Of Floor Finishes (scale 1:100m Minimum) Aid – 2 (a…n) Floor Plans Showing Layout Of Furniture/finishing Partitions, Cabinets, Etc. (scale 1:100m Minimum) Aid – 3 (a…n) Interior Elevations And Sections Showing Wall Patterns, Ceiling Sections, Etc. (scale 1:100m Minimum) Aid – 4 (a…n) Details Of Partitions, Cabinets, Furniture, Ceiling And Other Interior Design Features (scale 1:100m Minimum) Aid – 5 (a…n) Architectural Interior Perspective/s Architectural Interior Design Technical Specifications Architectural Interior Design Scope Of Works Architectural Interior Design Bill Of Quantities * To Be Marked As Either Complying Or Non-complying/complete Or Incomplete By The Evaluator Or To Be Filled With Supporting Comments (use Additional Sheets If Necessary) Evaluated By: ____________________________________________________________ Page 2 Of 6 Checklist Of Drawing Requirements In The Preparation/evaluation/approval Of Detailed Architectural And Engineering Plans And Other Documents For Infrastructure Project Implementation Reference: Revised Implementing Rules And Regulations Of The National Building Code Of The Philippines (pd 1096) Project : Location : Sheet Number Sheet Contents Remarks* Structural Drawings (as Applicable) S – 1 (a…n) General Notes And Construction Standards S – 2 (a…n) Site Development Plan S – 3 (a…n) Foundation Plan/s (scale 1:100m Minimum) S – 4 (a…n) Floor Framing Plan/s (scale 1:100m Minimum) S – 5 (a…n) Roof Framing Plan (scale 1:100m Minimum) S – 6 (a…n) Schedule And Detail Of Footings And Columns S – 7 (a…n) Schedule And Detail Of Beams And Floor Slabs S – 8 (a…n) Detail Of Trusses S – 9 (a…n) Details Of Stairs, Ramps, Fire Exits S – 10 (a…n) Other Spot Details Structural Analysis And Design (for 2 Storey Building And Higher) Boring And Land Test Results (for 3 Storey Building And Higher) Seismic Analysis Structural Technical Specifications Structural Scope Of Works Structural Bill Of Quantities * To Be Marked As Either Complying Or Non-complying/complete Or Incomplete By The Evaluator Or To Be Filled With Supporting Comments (use Additional Sheets If Necessary) Evaluated By: ____________________________________________________________ Page 3 Of 6 Checklist Of Drawing Requirements In The Preparation/evaluation/approval Of Detailed Architectural And Engineering Plans And Other Documents For Infrastructure Project Implementation Reference: Revised Implementing Rules And Regulations Of The National Building Code Of The Philippines (pd 1096) Project : Location : Sheet Number Sheet Contents Remarks* Electrical Drawings (as Applicable) E – 1 (a…n) General Notes And Legends E – 2 (a…n) Location And Site Plan E – 3 (a…n) Lighting Layout (scale 1:100m Minimum) Including Details E – 4 (a…n) Power Layout (scale 1:100m Minimum) Including Details E – 5 (a…n) Auxiliary System Layout (scale 1:100m Minimum) Including E – 6 (a…n) Schedule And Detail Of Loads E – 7 (a…n) Riser Diagram E – 8 (a…n) Other Detail Electrical Computation Design Analysis Electrical Technical Specifications Electrical Scope Of Works Electrical Bill Of Quantities * To Be Marked As Either Complying Or Non-complying/complete Or Incomplete By The Evaluator Or To Be Filled With Supporting Comments (use Additional Sheets If Necessary) Evaluated By: ____________________________________________________________ Page 4 Of 6 Electronics/auxiliary System Ready For Integrated Communications 1. Telephone System 2. Paging System 3. Lan System 4. Fire Alarm System 5. Security System Cctv 6. Integrated Communications And Systems Checklist Of Drawing Requirements In The Preparation/evaluation/approval Of Detailed Architectural And Engineering Plans And Other Documents For Infrastructure Project Implementation Reference: Revised Implementing Rules And Regulations Of The National Building Code Of The Philippines (pd 1096) Project : Location : Sheet Number Sheet Contents Remarks* Plumbing/sanitary Drawings (as Applicable) P – 1 (a…n) General Notes And Legends P – 2 (a…n) Location And Site Plan P – 3 (a…n) Storm Drainage Layout (scale 1:100m Minimum) Including Actual Length Of Tapping Line To Main Drainage Line P – 4 (a…n) Waterline Layout (scale 1:100m Minimum) Including Actual Length Of Tapping Line From Main Water Source When Applicable P – 5 (a…n) Sewerline Layout (scale 1:100m Minimum) Including Actual Length Of Tapping Line To Septic Tank Or Existing Sewerline P – 6 (a…n) Isometric Layout, Showing Waterline, Sewerline And Drainage Line P – 7 (a…n) Detail Of Connections, Catch Basins, Downspouts, Etc. P – 8 (a…n) Detail Of Septic Tank/sewer Treatment Plant Design Analysis Sanitary Technical Specifications Sanitary Scope Of Works Sanitary Bill Of Quantities * To Be Marked As Either Complying Or Non-complying/complete Or Incomplete By The Evaluator Or To Be Filled With Supporting Comments (use Additional Sheets If Necessary) Evaluated By: ____________________________________________________________ Page 5 Of 6 Checklist Of Drawing Requirements In The Preparation/evaluation/approval Of Detailed Architectural And Engineering Plans And Other Documents For Infrastructure Project Implementation Reference: Revised Implementing Rules And Regulations Of The National Building Code Of The Philippines (pd 1096) Project : Location : Sheet Number Sheet Contents Remarks* Mechanical Drawings (as Applicable) M – 1 (a…n) General Notes And Legends, Site Development Plan, Location Plans M – 2 (a…n) Floor Plans/isometric Drawings (scale 1:100m Minimum) Showing Ventilation And Air Conditioning Systems And Other Installations M – 3 (a…n) Floor Plans/isometric Drawings (scale 1:100m Minimum) Of Gas Pipeline System And Details M – 4 (a…n) Floor Plans/isometric Drawings (scale 1:100m Minimum) Of Air-conditioning Systems And Details M – 5 (a…n) Floor Plans/isometric Drawings (scale 1:100m Minimum) Of Fire Suppression Systems, Fire Sprinkler System, Wet Stand Pipe, Dry Standpipe And Other Installation M – 6 (a…n) Details Water Tank, Flow Diagram (scale 1:50m) M – 7 (a…n) Details Of Firewater Supply Sytem (scale 1:50m) M – 8 (a…n) Detail Of Elevators, Escalators, Dumbwaiters, Etc. (scale 1:50m) M – 9 (a…n) Detail Of Other Machinery/equipment (scale 1:50) M – 10 (a…n) Longitudinal And Transverse Section Of Building (scale 1:100m) Showing Manner Of Support Of Machines/equipment Mechanical Technical Specifications Mechanical Scope Of Works Mechanical Bill Of Quantities * To Be Marked As Either Complying Or Non-complying/complete Or Incomplete By The Evaluator Or To Be Filled With Supporting Comments (use Additional Sheets If Necessary) Evaluated By: ____________________________________________________________ Page 6 Of 6 General Guidelines • All Construction Works Shall Be Undertaken By Contractor In Accordance With Existing Laws And All Other Applicable Rules And Regulations. • The Contractor Shall Be Responsible In Setting Out Reference Lines, Elevations (lines And Grades) Prior And During The Execution Of The Works. All References Shall Be Maintained And Protected By The Contractor At His Own Expense. Disturbed References Shall Be Restored To Its Original Position Without Extra Cost To Devmh. • The Contractor Shall Carry Out The Works Properly And In Accordance With This Contract. The Contractor Shall Provide All Supervision, Labor, Materials, Plant And Equipment, Which May Be Required. • The Contractor Shall Commence Execution Of The Works On The Start Date And Shall Carry Out The Works In Accordance With The Approved Pert/cpm Network Diagram Submitted By The Contractor, As Updated With The Approval Of The Procuring Entity’s Representative, And Shall Complete The Works By The Intended Completion Date. • The Contractor Shall Be Responsible For The Safety Of All Activities On The Site. • During On-going Construction And Before The Turn-over Of The Project, Engineering & Facilities Management Staff, End-users, Twg And Bac Shall Inspect The Works Undertaken By Contractor. Hospital Engineers And End-users Discover Any Deviations By Contractor From The Approved Construction Plans, Contractor Shall Be Required To Rectify All Such Deviations, Within Such Period Required By Client. • Contractor Shall Have Full Responsibility For Any And All Damages To Existing Hospital Facilities, Utilities, And/or Any Portion Of The Hospital’s Common Area, Due To The Works Undertaken By Contractor, Whether Accidental Or Intentional. • No Variation Order Shall Be Undertaken Unless Verified By Hospital Engineer And Approved By Executive Committee. • Contractor Shall Not Cover Or Block Stub-outs (cleanouts, Water Source, Exhaust, Sewer, Drainage, Etc.) When Not Utilized. Said Stub-outs Shall At All Times Be Free Of Obstructions And Easily Accessible. • Contractor Shall Secure A Utility Tapping Permit Prior To Tapping From Utility Provision. • Electricity And Water Consumed During Construction Shall Be Charged To Contractor. • End-users Reserves The Right To Inspect The Works At Any Time. • Contractor Shall Insure And Hold Client, Its Affiliates, Officers, Directors, Stockholders, Employees, Agents, And/or Representatives, Free And Harmless From And Against Any Injury, Losses, Claims, Damages, Liabilities, Expenses, And/or Costs Of Litigation, Resulting From Or Arising Out Of The Works Undertaken By Contractor. • In Event Of Force Majeure, The Contractor Shall Rectify, Replace Or Build The Unfinished Projects When It Is Not Yet Completed And Accepted W/o Additional Cost For The Procuring Entity. • Contractor Shall Comply With The Construction House Rules Of This Hospital.

Details: At the Wansdorf sewage treatment plant, the machinery and EMSR technology of the digested sludge tanks 1 and 2 and the mixed sludge tank are being renewed. The measure essentially includes: Digested sludge tank: - Dismantling and disposal of existing agitator and crane 2 pieces, - Delivery and installation of new agitator 2 pieces (motor power: 5.5 kW, 400 V, circulation volume flow: min. 6.5 M3/s, shaft length approx. 4,820 mm, nominal torque: 1,990 Nm), Mixed sludge tank: - Dismantling and disposal of existing agitator 1 piece, - Delivery and installation of new submersible motor agitators with installation kit and lifting device 2 pieces (propeller diameter: 0.58 M, speed: 475 min-1, thrust: min. 1270 N (f), 5.28 kW (p1), specific energy input: 24 W/m3 (p1ges/v), Sludge hall: - Delivery and installation of Söffel pump with control (qmax 18.5 M3/h, Hmin. 1 M, Hmax 18 m), pipe DN 150 5 m, fittings, - delivery and assembly of gate valves DN 150 with Auma drive 2 St Emsr: - installation and commissioning of the agitator drives of the digested sludge tank 1/2 and the mixed sludge tank - renewal of the Auma gate valves in the sludge hall - installation, commissioning and calibration of new radar measuring probes (fill level) in the tanks - integration of the agitators, gate valves, basement drainage pump and the measuring technology into the process control system - programming of the PCS7 automation system, adaptation of the operating images - renewal of the Nshv inserts for the outlets of the agitators and Auma drives (retrofit). - renewal of the cable laying systems on the tanks - renewal of the local control stations and intermediate terminal boxes - creation of the potential equalization for the newly constructed system parts and renewal of the lightning protection - testing of the electrical system - commissioning and functional tests - instruction - documentation

Details: Description Quantity Unit Item Description 1 Lot Procurement Of Integrated Full Mission Bridge And Engine Room Simulator With Desktop Station Full Mission Bridge Simulator (fmbs) And Mini Bridge Stations’ Features And Applications, Major Components, Bridge Simulator Performance Standards And Hardware 1. Major Components The Full Mission Bridge Simulators That Can Be Integrated With Engine Simulators Shall Consist Of The Following Major Components: A. One (1) Full Mission Bridge Station With 270° Horizontal Display (class A Configuration); B. Seven (7) Mini Bridge Stations With 120° Horizontal Display (class B Configuration); C. One (1) Server Station; D. One (1) Instructor Station; E. One (1) Simulator Scenario Development Station; And F. One (1) Briefing/ Debriefing Station. 2. Features And Applications 2.1 The Bridge Simulator Should Provide A Realistic, Ship-like Environment Based On Real Hardware Consoles And High-quality Visualization. The Systems Include Major Components Such As Conning, Radar/ Arpa And Ecdis, Gmdss, Navigation Equipment, Bearing Finder, Steering Control Console, Engine Control, Auto Pilot System, Overhead Display, Etc. 2.2 The Bridge Simulator Product Shall Be Certified And Compliant As Class A (full Mission), B (multi-task), C (limited Task), And D (cloud-based Distant Learning) Type-approved Maritime Simulator System By An Internationally Recognized Classification Society. The Compliance With Classification Shall Be Reflected In The Certificate Of The Product. 2.3 The Simulator Can Be Utilized To A Variety Of Navigation Techniques Under Different Environmental Conditions, Serving A Wide Range Of Purposes As Follows: 1. Control Of The Ship While Navigating In The Operational And Emergency Modes In Various Weather Conditions With The Possibility Of Setting Wind And Current Parameters; 2. Analysis Of The Above-water Situation In Day And Night Conditions; In Poor Visibility By Visible Navigation Lights And Information Received From Radar/ Arpa; 3. Use Of The Electronic Chart-based Navigational Information System (ecdis); 4. Practical Use Of Radio Equipment And Global Maritime Distress And Safety System (gmdss) Facilities; 5. Application Of The International Regulations For Preventing Collisions At Sea; 6. Ship Control During Anchoring And Mooring; 7. Ship Control During Towing Operations; 8. Ship Control During Maneuvers "man Overboard"; 9. Rational Methods Of Ship Control In Case Of Main Engines (me) And Ship And Navigation Equipment Failures During Movement; 10. Eye Survey Of Above-water And Radar Situation, Determination Of Vessel Movement Elements; 11. Navigational Situation Assessment By Visual Observation During Daytime, By Lights At Night Time And By Observation Of Transmission Of Echo Signals On Ppi Simulators In Conditions Of Limited Visibility; 12. Visual Determination Of Vessel Movement Patterns, Maneuvering Capabilities And Dimensions; 13. Selection And Execution Of Collision Avoidance Maneuvers In Open Sea, During Night And In Limited Visibility Conditions Using Radar/arpa; 14. Evaluation Of Accuracy Of Primary And Secondary Information Received From Arpa, Consideration Of Factors Affecting Accuracy Of Arpa And Delay In Formation Of Secondary Radar Information; 15. Orientation Of Ships In Complex Navigation Conditions In Daytime And Nighttime And In Conditions Of Limited Visibility; 16. Use Of Ecdis For Preliminary And Executive Plotting, Practicing Correct Response To Emergency Signals Produced By Ecdis, Solution Of Chart-metric Tasks And Ensuring Safety Of Navigation With The Use Of Information Received From Ecdis; 17. Use Of Basic Capabilities Of Marine Mobile Service And Marine Mobile Satellite Service. 2.4 The Bridge Simulator Product Shall Be Able To Address The Following Stcw Competencies And Shall Be Reflected In The Certificate. · Table A-ii/1.1 - Plan And Conduct A Passage And Determine Position. • Table A-ii/1.2 - Maintain A Safe Navigational Watch. • Table A-ii/1.3 - Use Of Radar And Arpa To Maintain Safety Of Navigation. § Table A-ii/1.4 - Use Of Ecdis To Maintain The Safety Of Navigation. • Table A-ii/1.5 - Respond To Emergencies. • Table A-ii/1.6 - Respond To A Distress Signal At Sea. • Table A-ii/1.8 - Transmit And Receive Information By Visual Signaling. • Table A-ii/1.9 - Manoeuvre The Ship. • Table A-ii/2.1 - Plan A Voyage And Conduct Navigation. • Table A-ii/2.2 - Determine Position And The Accuracy Of Resultant Position Fix By Any Means. • Table A-ii/2.3 - Determine And Allow For Compass Errors. • Table A-ii/2.4 - Co-ordinate Search And Rescue Operations. • Table A-ii/2.5 - Establish Watchkeeping Arrangements And Procedures. • Table A-ii/2.6 - Maintain Safe Navigation Through The Use Of Information From Navigation Equipment And Systems To Assist Command Decision-making. • Table A-ii/2.7 - Maintain The Safety Of Navigation Through The Use Of Ecdis And Associated Navigation Systems To Assist Command Decision Making. • Table A-ii/2.10 - Maneuver And Handle A Ship In All Conditions. • Table A-ii/2.11 - Operate Remote Controls Of Propulsion Plant And Engineering Systems And Services. • Table A-ii/3.1 - Plan And Conduct A Coastal Passage And Determine Position. • Table A-ii/3.2 - Maintain A Safe Navigational Watch. • Table A-ii/3.3 - Respond To Emergencies. • Table A-ii/3.4 - Respond To A Distress Signal At Sea. • Table A-ii/3.5 - Manoeuvre The Ship And Operate Small Ship Power Plants. • Table A-ii/4.1 - Steer The Ship And Also Comply With Helm Orders In The English Language. • Table A-ii/4.2 - Keep A Proper Look-out By Sight And Hearing. § Table A-ii/5.2 - Contribute To Berthing, Anchoring And Other Mooring Operations. • Table A-v/4-1.1 - Contribute To Safe Operation Of Vessels Operating In Polar Waters. • Table A-v/4-1.2 - Monitor And Ensure Compliance With Legislative Requirements. • Table A-v/4-1.3 - Apply Safe Working Practices, Respond To Emergencies. • Table A-v/4-1.4 - Ensure Compliance With Pollution-prevention Requirements And Prevent Environmental Hazards. • Table A-v/4-2.1 - Plan And Conduct A Voyage In Polar Waters. • Table A-v/4-2.2 - Manage The Safe Operation Of Vessels Operating In Polar Waters. • Table A-v/4-2.3 - Maintain Safety Of The Ship's Crew And Passengers And The Operational Condition Of Life- Saving, Firefighting And Other Safety Systems. 2.5 The Bridge Simulator Shall Allow For Training And Certification Of Watch Officers, Chief Officers, Captains, And Pilots Serving On Commercial And Fishing Vessels Of 500 Gross Tonnage Or More In Accordance With The Requirements Of The Imo Stcw Convention And Model Courses: · 1.07 – Radar Navigation, Radar Plotting And Use Of Arpa; · 1.08 – Radar, Arpa, Bridge Teamwork And Search & Rescue; · 1.22 – Ship Simulator And Bridge Teamwork; · 1.27 – Operational Use Of Electronic Chart Display And Information System (ecdis); · 1.32 – Operational Use Of Integrated Bridge System; · 1.34 – Operational Use Of Ais; · 2.02 – Maritime Sar Coordinator; · 3.11 – Marine Accident And Incident Investigation With Compendium; · 3.19 – Ship Security Officer; · 3.23 – Actions To Be Taken To Prevent Acts Of Piracy And Armed Robbery; · 7.01 – Master And Chief Mate; · 7.03 – Officer In Charge Of Navigational Watch; · 7.05 – Officer In Charge Of Navigational Watch Of Fishing Vessel; · 1.25 – General Operator’s Certificate For The Gmdss; · 1.26 – Restricted Operator’s Certificate For The Gmdss. 2.6 The Bridge Simulator Shall Have All The Ownship Models, Target Ship Models , Objects And Exercise Areas Available In The Database Of The Simulator Product. It Shall Also Include Polar Areas, The Existing Models And Areas In Current Simulator, Naval And Coast Guard Ship Models, Ship Models Ready For Integration With Engine Simulators And Ship/engine Models Using Future Fuels. 2.7 The Simulator Shall Have Intercom Installed In The Instructor Station And All Bridge Stations. 2.8 The Simulator Shall Have An Evaluation And Assessment Method Designed For The Evaluation And Assessment Of A Range Of Predefined Assessment Parameters From The Following Categories: • Planning And Conducting A Passage And Determine Position; • Maintain Safe Navigational Watch; • Using Radar And Arpa To Maintain Navigational Safety; • Ability To Operate And Analyze Information Obtained From Arpa; • Respond To Emergencies; • Use Imo Standard Marine Communication Phrases And Use English Inwriting And Speaking; • Transmit And Receive Information Using Visual Signals; • Maneuver The Ship; • Colreg. 2.9 The Simulator Shall Have The Ability To Set Up A Scoring And Grading System To Evaluate The Operator’s Performance. The Program Allows The Instructor To Monitor The Results Of The Bridge Team / Operator Workstation Performance. 2.10 The Simulator Shall Be Capable Of Simulating Ship Operation In Polar Waters Or Ice Navigation According To The Polar Code And Shall Have The Following Training Capabilities: - Ice Management Of Offshore Installations In An Arctic Environment, - Use Of Radar Data And Ice Charts In Ecdis While Navigating In Ice Conditions, - Following Of Icebreakers, - Offshore Loading Operations To Include Mooring To Single Point Mooring And Floating Production Storage And Offloading Equipment In Ice Conditions, And - Navigation In Shattered Ice, Along Hard Ice Edges, Bumping Against Ice Edges, In Open Pack Ice, In Ice Holes, And Spots Of Ice-free Water. 2.11 The Ice Navigation Environment Shall Have The Following Characteristics: - Capable Of Ice Accumulation On Ship Superstructure, - Ship’s Tracks On Ice Fields Re-freeze As Programmed By The User, - Ice Mounds And Channels Can Be Added By The User, - Characteristics Of Ice Resistance Are Based On The Type Of Ice, Thickness, And Accumulation, - Capable Of Traversing Large Ice Areas, And - Realistic Representation Of Iceberg Objects. 3. Bridge Simulator Performance Standards 3.1 Physical Realism The Bridge Simulator Stations Shall Have The Following Physical Realism: A. The Equipment, Consoles, And Workstations Shall Be Installed, Mounted, And Arranged In A Manner That Mimics An Actual Bridge Of A Ship. B. The Workstations Shall Have Standard Rubber Mat Flooring. The Simulator Shall Have The Following Equipment: C. Controls Of Propulsion Plant Operations, Including Engine Telegraph, Pitch-control And Thrusters. There Shall Be Indicators For Shaft(s) Revolutions And Pitch Of Propeller(s). There Shall Be Controls For At Least One Propeller And One Bow Thruster. D. Controls Of Propulsion Plant For Mooring Operations. By Any Method, It Shall Be Possible To Observe The Ship's Side And The Dock During Operation Of Such Controls. E. Controls Of Auxiliary Machinery. There Shall Be Controls For At Least Two Auxiliary Engines, Including Electric Power Supply Control. F. Steering Console, Including Equipment For Hand Steering And Automatic Steering With Controls For Switchover. There Shall Be Indicators Of Rudder Angle And Rate Of Turn. G. Steering Compass And Bearing Compass (or Repeater) With An Accuracy Of At Least 1 Degree. H. At Least One Radar/arpa Display/unit (automatic Radar Plotting Aid). It Shall Be Possible To Simulate Both A 10 Cm (s-band) And A 3 Cm (x-band) Radars. The Radar Shall Be Capable To Operate In The Stabilised Relative-motion Mode And Sea- And Ground-stabilised True-motion Modes (see Stcw Section A-1/12.4.1 And 1/12.5 And Paragraph 2 Of Section B-i/12). I. Communication Equipment Per Gmdss (global Maritime Distress Safety System) Framework, Covering At Least The Requirements For The Relevant Area. J. The Simulator Shall Include A Communications System That Will Allow For Internal Ship Communications To Be Conducted. K. Ecdis (electronic Chart Display And Information System) Displaying Selected Information From A System Electronic Navigational Chart (senc) With Positional Information From Navigation Sensors Like Ais And Radar To Assist The Mariner In Route Planning And Route Monitoring, And By Displaying Additional Navigation-related Information. (see Stcw Section B-i/12). L. Gps (global Positioning System), Echo-sounder And Speed Log Showing Speed Through The Water (1 Axis) For Ships Below 50,000 Grt And In Addition Speed And Distance Over Ground In Forward And Athwart Ship Direction For Ships Above 50,000 Grt. M. Instrument (anemometer) For Indication Of Relative Wind- Direction And Force. N. Ship Sound Signal Control Panel According To Colreg. O. Instrument For Indication Of Navigational Lights. P. Function For Transmitting Visual Signals (morse Light). Q. Control System For General Alarm And Fire Detection/alarm And Other Alarms. R. Ais (automatic Identification System). S. Ship-borne Meteorological Instrument. The Simulator Shall Have The Following Additional Requirements For Training In Ice Navigation: T. Controls For Propulsion Plant Operations, Including Engine Telegraph, Pitch Control, And Thrusters. There Shall Be Indicators For Shaft Revolutions And Pitch Of Propeller. There Shall Be Controls For At Least One Propeller And One Bow Thruster. U. Two Speed And Distance Measuring Devices. Each Device Should Operate On A Different Principle, And At Least One Device Should Be Capable Of Being Operated In Both The Sea And The Ground Stabilized Mode. V. Searchlight Controllable From Conning Positions. W. Manually Operated Flashing Red Light Visible From Astern To Indicate When The Ship Is Stopped. X. Vdr (voyage Data Recorder) Or Capability For Vessel History Track And Learner Actions Log From The Instructor And The Assessor Position. Y. Equipment Capable Of Receiving Ice, Icing Warnings, And Weather Information Charts. Z. Anchoring And Towing Arrangements. The Simulator Shall Have The Following Additional Requirements For Training In Integrated Bridge Systems Including Integrated Navigation Systems: Aa. Workstation For Navigating, Maneuvering And Monitoring Consisting Of: · Radar/arpa · Ecdis · Conning Display · Binoculars Control · Autopilot Control · Observer Position/ Visual Control · Information On Position-fixing Systems · Information On Ship Automatic Identification System (ais) · Heading Control System · Flags, Daytime Shapes And Sound Signals · Control For The Main Engine Including Emergency Stop · Control For The Main Rudder Using Helm · Controls For Thruster · Two-way Vhf Radiotelephone (walkie-talkie) With Charging Connection · Internal Communication Equipment · Public Address System · Vhf With Channel Selector · Remote Control For Searchlight · Rudder Pump Selector Switch · Steering Mode Selector Switch · Steering Position Selector Switch · Illumination Of Equipment And Displays In The Surrounding Darkness · Sound Reception System · Acknowledgment Of The Watch Alarm · Controls For Console Lighting · Indicators For: - Propeller Revolutions (actual And Desired) - Main Engine Revolution In The Case Of Reduction Geared Engine - Propeller Pitch In The Case Of Controllable Pitch Propeller - Torque - Starting Air - Lateral Thrust - Speed - Rudder Angle - Rate-of-turn - Gyro Compass Heading - Magnetic Compass Heading - Heading Reminder (pre-set Heading) - Water Depth Including Depth Warning Adjustment - Time - Wind Direction And Velocity - Air And Water Temperature - Clinometer - Alarms · Signal Transmitter For: - Whistle - Automatic Device For Fog Signals - Alarms, (general Alarm, Emergency Alarm, Etc.) - Morse Signaling Light Bb. Workstation For Manual Steering (wheelhouse) Consisting Of: · Steering Wheel · Rudder Pump Selector Switch · Indications For: - Gyro Compass Heading - Magnetic Compass Heading - Pre-set Heading - Rudder Angle - Rate Of Turn Cc. Workstation For Planning And Documentation Consisting Of: · Ecdis Including Navigation Planning Station · Route Planning Devices · Chart Table · Paper Charts · Plotting Aids Dd. Workstation For Communications Consisting Of: · Gmdss Equipment As Required For The Applicable Sea Area · Vhf-dsc, Radiotelephone · Mf-dsc, Radiotelephone · Mf/hf-dsc, Nbdp, Radiotelephone · Mf/hf Mf/hf Radio Telex · Inmarsat-ses, Egc Rx With Lrit And Ssas · Navtex/egc/hf Direct Printing Telegraph · Fbb/iridium · Cospas-sarsat Epirb · Sart · Ais Sart · Main Station For Two-way Vhf Radiotelephone · Aircraft Vhf Radiotelephone · Gmdss Alarm Panel · Radio Direction Finder Rt-500-m (marine) · Power Switchboard · Battery Charger · Virtual Printer Ee. All Systems Related To The Integrated Bridge System Shall Include Failure Control(s) And Method(s) To Train And Assess The Learner In The Use Of Advanced Equipment, Technology And Enable Familiarization And Training To Understand The Limitations Of Automatic Systems. 3.2 Behavioral Realism The Bridge Simulator Stations Shall Have The Following Behavioral Realism: A. The Simulation Of Ownship Shall Be Based On A Mathematical Model With 6 Degrees Of Freedom. B. The Model Shall Realistically Simulate Own Ship Hydrodynamics In Open Water Conditions, Including The Effects Of Wind Forces, Wave Forces, Tidal Stream And Currents. C. The Model Shall Realistically Simulate Own Ship Hydrodynamics In Restricted Waterways, Including Shallow Water And Bank Effects, Interaction With Other Ships And Direct, Counter And Sheer Currents. D. The Simulator Shall Include Mathematical Models Of Different The Types Of Ownships. E. The Simulator Shall Include Tug Models That Can Realistically Simulate Tug Assistance During Maneuvering And Escort Operations. It Shall Be Possible To Simulate Pull, Push, Reposition Towing And Escorting. F. The Simulator Shall Include Exercise Areas Including Correct Data For Landmass, Depth, Buoys, Tidal Streams And Visual As Appropriate To The Nautical Chart And Publication Used For The Relevant Training Objectives. G. The Radar Simulation Equipment Shall Be Capable Of Model Weather, Tidal Streams, Current, Shadow Sectors, Spurious And False Echoes And Other Propagation Effects, And Generate Coastlines, Navigational Buoys And Search And Rescue Transponders. H. The Arpa Simulation Equipment Shall Incorporate The Facilities For: - Manual And Automatic Target Acquisition - Fast Track Information - Use Of Exclusion Areas - Vector/graphic Time-scale And Data Display - Trial Maneuvers. I. The Ecdis Simulation Equipment Shall Incorporate The Facilities For: - Integration With Other Navigation Systems - Own Position - Sea Area Display - Mode And Orientation - Chart Data Displayed - Route Monitoring - User-created Information Layers - Contacts (when Interfaced With Ais And/or Radar Tracking) - Radar Overlay Functions. J. The Simulator Shall Provide An Own Ship Engine Sound, Reflecting The Power Output. K. The Simulator Shall Provide Capabilities For Realistically Conduct Anchoring Operations. L. The Model Shall Realistically Simulate Own Ship Hydrodynamics In Interaction With Applicable Anchor And Chain Dimensions With Different Bottom Holding Grounds, Including The Effects Of Wind Forces, Wave Forces, Tidal Stream And Currents. M. The Simulator Shall Provide Capabilities For Realistically Simulate The Function Of Mooring And Tug Lines And How Each Line Functions As Part Of An Overall System Taking Into Account The Capacities, Safe Working Loads, And Breaking Strengths Of Mooring Equipment Including Mooring Wires, Synthetic And Fiber Lines, Winches, Anchor Windlasses, Capstans, Bitts, Chocks And Bollards. The Simulator Shall Have The Following Additional Requirements For Training In Ice Navigation: N. The Own Ship Model Shall Realistically Simulate Hydrodynamics In Interaction With Solid Ice Edge. O. The Own Ship Model Shall Realistically Simulate Hydrodynamics And Ice Pressure In Interaction With Solid And Packed Ice. Ship Motion In Solid Ice Should Affect At Least Ship Speed And Turning Radius. P. The Own Ship Model Shall Realistically Simulate The Effects Of Reduced Stability As A Consequence Of Ice Accretion. Q. It Shall Be Possible To Simulate The Effect Of The Following Ice Conditions With Variations: - Ice Type - Ice Concentration - Ice Thickness. R. It Shall Be Possible To Realistically Simulate The Towing Of Ownship – Ownship, And Own Ship Target Ship And Target Ownship. It Shall Be Possible To Introduce Different Towing Gear Like Rope Or Steel Wire With Different Strength And Elasticity, Forward, Stern And Side Towing. S. It Shall Be Possible To Realistically Simulate The Interaction Between The Ships Propeller Wash And The Ice. T. It Shall Be Possible To Realistically Simulate Ice Drift. U. The Simulator Shall Be Equipped With Iceberg Targets Of At Least Six Different Sizes Including Realistic Underwater Bodies Which Interacts With The Sea Bottom. The Icebergs Should Be Visible On The Ship's Radar. V. Motion Through Ice Hummocks Should Be Simulated Realistically Considering Ship Icebreaking Capabilities And Affect Ship's Speed, Roll And Pitch. The Simulator Shall Have The Following Additional Requirements For Training In Integrated Bridge Systems Including Integrated Navigation System: W. The Integrated Navigation System Should Combine Process And Evaluate Data From All Sensors In Use. The Integrity Of Data From Different Sensors Should Be Evaluated Prior To Distribution. X. The Integrated Navigation System Shall Ensure That The Different Types Of Information Are Distributed To The Relevant Parts Of The System, Applying A Consistent Common Reference System For All Types Of Information. Y. The Integrated Navigation System Shall Provide Information On Position, Speed, Heading, And Time. Z. The Integrated Navigation System Shall Be Able To Automatically, Continually And Graphically Indicate The Ship's Position, Speed And Heading And, Where Available, Depth In Relation To The Planned Route As Well As To Known And Detected Hazards. Aa. The Integrated Navigation System Shall, In Addition, Provide Means To Automatically Control Heading, Track Or Speed, And Monitor The Performance And Status Of These Controls. Bb. Alarms Shall Be Displayed So That The Alarm Reason And The Resulting Functional Restrictions Can Be Easily Understood. 3.3 Operating Environment The Bridge Simulator Shall Exhibit The Following Operating Environment: A. The Simulator Shall Be Able To Present Different Types Of Target Ships, Each Equipped With A Mathematical Model, Which Accounts For Motion, Drift And Steering Angles According To Forces Induced By Current, Wind Or Wave. B. The Targets Shall Be Equipped With Navigational And Signal-lights, Shapes, And Sound Signals, According To Rules Of The Road. The Signals Shall Be Individually Controlled By The Instructor, And The Sound Signals Shall Be Directional And Fade With Range. Each Ship Shall Have An Aspect Recognizable At A Distance Of 6 Nautical Miles In Clear Weather. A Ship Underway Shall Provide Relevant Bow- And Stern Wave. C. The Simulator Shall Be Equipped With Targets Enabling Search And Rescuing Persons From The Sea, Assisting A Ship In Distress And Responding To Emergencies Which Arise In Port. Such Targets Shall At Least Be: · Rocket Parachute Flares · Hand Flares · Buoyant Smoke Signals · Sart (search And Rescue Transponder) · Satellite Epirb (emergency Position Indicating Radio Beacon) · Lifeboat · Life Raft · Rescue Helicopter · Rescue Aircraft · People In Water. D. The Simulator Shall Be Able To Present At Least 20 Target Ships At The Same Time, Where The Instructor Shall Be Able To Programme Voyage Routes For Each Target Ship Individually. (see Stcw Section A-1/12.4.3) E. The Simulator Shall Provide A Realistic Visual Scenario By Day, Dusk Or By Night, Including Variable Meteorological Visibility, Changing In Time. It Shall Be Possible To Create A Range Of Visual Conditions, From Dense Fog To Clear Conditions. F. The Visual System And/or A Motion Platform Shall Replicate Movements Of Own Ship According To 6 Degrees Of Freedom. G. The Projection Of The View Shall Be Placed At Such A Distance And In Such A Manner From The Bridge Windows That Accurate Visual Bearings May Be Taken To Objects In The Scene. It Shall Be Possible To Use Binocular Systems For Observations. H. The Visual System Shall Present The Outside World By A View Around The Horizon (360°). The Horizontal Field Of View May Be Obtained By A View Of 270° And Where The Rest Of The Horizon May Be Panned (to Move The “camera”). (applicable Only To Full Mission Bridge Station With 270° Horizontal Display) I. The Visual System Shall Present The Outside World By A View Of At Least 120° Horizontal Field Of View. In Addition, At Least The Horizon From 120° Port To 120° Starboard Shall Be Able To Be Visualised By Any Method. (applicable Only To Mini Bridge Station With 120° Horizontal Display). J. The Visual System Shall Present A Vertical View From The Workstations For Navigation, Traffic Surveillance And Manoeuvring Enabling The Navigator To Detect And Monitor Objects Visually On The Sea Surface Up To The Horizon Within The Required Horizontal Field Of View When The Ship Is Pitching And Rolling. In Addition, By Any Method, It Shall Be Possible To Observe The Ship's Side And The Dock During Mooring Operations. K. The Visual System Shall Present All Navigational Marks According To Charts Used. L. The Visual System Shall Show Objects With Sufficient Realism (detailed Enough To Be Recognized As In Real Life). M. The Visual System Shall Show Mooring And Towing Lines With Sufficient Realism In Accordance With The Forces Effecting The Tension. N. The Visual System Shall Provide A Realistic Set Of Bow Wave, Sea Spray And Wakes In Accordance With Ships Power Output, Speed And Weather Conditions. O. The Visual System Shall Provide A Realistic Set Of Flue Gas Emission And Waving Flag Effect In Accordance With Ships Power Output, Speed And Weather Conditions. P. The Simulator Shall Be Capable Of Providing Environmental Sound According To Conditions Simulated. Q. The Navigated Waters Shall Include A Current Pattern, Changeable In Time, According To The Charts Used. Tidal Waters Shall Be Reflected. R. The Simulation Shall Include The Depth According To Charts Used, Reflecting Water Level According To Tidal Water Situation. S. The Simulator Shall Provide At Least Two Different Wave Spectra, Variable In Direction Height And Period. T. The Visual System Shall Provide A Realistic Set Of Wind Waves Including White Caps According To The Beaufort Wind Force Scale. The Simulator Shall Have The Following Additional Requirements For Training In Ice Navigation: U. The Visual System Shall Be Capable Of Showing Concentrations Of Solid And Broken Ice Of Different Thickness. V. The Visual System Shall Be Capable Of Showing The Result Of Icebreaking Including Opening, Twin Breaking And Compacting Channel. W. The Visual System Shall Be Capable Of Showing The Effects Of Searchlight. X. The Visual System Shall Be Capable Of Showing The Effects Of The Ice Accretion To The Own Ship Model. The Simulator Shall Have The Following Additional Requirements For Training In Integrated Bridge Systems Including Integrated Navigation Systems: Y. There Shall Be A Field Of View Around The Vessel Of 360° Obtained By An Observer Moving Within The Confines Of The Wheelhouse Or May Be Panned (to Move The Camera). 4. Hardware Requirements 1 Set 4.1 Full Mission Bridge Simulator (horizon Field View Of 270 Degrees) A. Steel Fabrication Of Main Bridge Consoles Consisting Of: I. Conning/maneuvering Console Ii. Radar Console Iii. Ecdis Console Iv. Bearing Console V. Navigation Aid Equipment Console Vi. Gmdss Console Vii. Steering Stand/console Viii. Chart Table Ix. Overhead Panel X. Gyro Repeater With Pelorus Stand Xi. Binoculars Xii. The Console Must Made Of Steel W/ Handrails B. Visual Specification (minimum Requirements) I. 9x 70” Visual Screens Led Backlit 1. Pc Visual Channel 2. Intel Core I5 Processor 3. 16 Gb Ram 4. 256 M.2 Ssd 5. Rtx 4070 Or Higher 6. Keyboard/mouse 7. Hdmi Cable 8. Ups 1.5kva A. Surge Protection B. W/ Automatic Voltage Regulator C. 1x Conning Console (minimum Requirements) 1. Intel Core I5 Processor 2. 8 Gb Ram 3. 256 M.2 Ssd 4. 2x Monitor 24” 5. Keyboard/mouse 6. Ups 1.5kva A. Surge Protection B. W/ Automatic Voltage Regulator 7. Console Made Of Steel (tct 0.8 Mm To 2 Mm) 8. Instrument Adds On Conning Console. D. 2x Ecdis Console (minimum Requirements) 1. Intel Core I5 Processor 2. 8 Gb Ram 3. 256 M.2 Ssd 4. Monitor 24” 5. Keyboard/mouse 6. Ups 1.5kva A. Surge Protection B. W/ Automatic Voltage Regulator 7. Console Made Of Steel (tct 0.8 Mm To 2 Mm) E. 2x Radar / Arpa Console (minimum Requirements) 1. Intel Core I5 Processor 2. 8 Gb Ram 3. 256 M.2 Ssd 4. Monitor 24” 5. Keyboard/mouse 6. Ups 1.5kva A. Surge Protection B. W/ Automatic Voltage Regulator 7. Console Made Of Steel (tct 0.8 Mm To 2 Mm) F. Binocular And Instrument (minimum Requirements) 1. Intel Core I5 Processor 2. 8 Gb Ram 3. 256 M.2. Ssd 4. Rtx 4070 Or Higher 5. Keyboard/mouse 6. 2x 24" Monitor 7. Ups 1.5kva A. Surge Protection B. W/ Automatic Voltage Regulator 8. Console Made Of Steel (tct 0.8 Mm To 2 Mm) G. Overhead Panel Display 1. Intel Core I5 Processor 2. 8 Gb Ram 3. 256 M.2 Ssd 4. At Least 1width And 0.4height 5. Keyboard/mouse 6. Ups 1kva A. Surge Protection B. W/ Automatic Voltage Regulator H. Radar/arpa I. Radar/arpa Keyboard (1 Set) Specifications: 1. Usb Interface 2. Console Mount Type I. Handset I. Handset Includes: 1. Handset 2. Cradle With A Ptt Switch 3. Usb Interface Board 4. Handset Box J. 1x Chart Table Console 1300mm X 1312mm (minimum Requirements) 1. Intel Core I5 Processor 2. 8 Gb Ram 3. 256 M.2 Ssd 4. 2x Monitor 24” 5. Keyboard/mouse 6. Ups 1kva A. Surge Protection B. W/ Automatic Voltage Regulator Ii. 1x Parallel Ruler Iii. 1x One-hand Compass Divider Steel Iv. 10x Plotting Triangle With Handle V. 1x Deck Log Book Vi. 1x Night Order Book Vii. 1x Bell Book Viii. 1x Chronometer Ix. Admiralty Paper Charts Related To Installed Maps In Simulator K. Gyro Repeater With Pelorus Stand 1. Bearing Repeater Compass 2. Pelorus Stand 3. Power: 24vd 4. Signal: Rs422 Nmea L. Weather Instruments 1. 1x Ships Clock 2. 1x Aneroid Barometer 3. 1x Hygrometer. M. Speaker With Subwoofer I. Channel Sound System Specification: 1. Interface With Visual Pc 2. Realization Of 3d Sound Effect System 3. Atleast 450watts Speaker With Subwoofer 4. Port: Mini Jack 7 Sets 4.2 Mini Bridge Simulator (horizon Field View Of 120 Degrees) A. Consoles Made In Formica Laminated Board Fabrication Of Main Bridge Consoles Consisting Of: I. Conning Console Ii. Radar Console Iii. Ecdis Console Iv. Maneuvering Console V. Chart Table With Gooseneck Dimming Light B. Mini Bridge Desktop Station (bridge Image Generator Computer For Visual, Conning, Radar, Maneuvering And Overhead Display) I. 3x 45” 4k Display For Visual (minimum Requirements) Ii. 1x Computer (minimum Requirements) 1. 256 M.2 Ssd 2. Rtx 4070 Or Higher 3. 1 X Keyboard/mouse 4. Ups 1.5kva A. Surge Protection B. W/ Automatic Voltage Regulator Iii. 1 X Computer (minimum Requirements) 1. Intel Core I5 Processor 2. 8 Gb Ram 3. 256 M.2 Ssd 4. Keyboard/mouse 5. 24” Monitor 6. Ups 1.5kva A. Surge Protection B. W/ Automatic Voltage Regulator Iv. 1 X Overhead Panel Display V. 1 X Speakers (minimum Requirements) 1. Interface With Visual Pc 2. Realization Of 3d Sound Effect System 3. Atleast 150 Watts Speaker With Subwoofer 4. Port: Mini Jack Vi. 1 X Goose Neck Microphone Vii. 1 X Set Desktop Instrument Console Including: 1. Steering System / Autopilot / Nfu 2. Steering Wheel Viii. Dual Telegraph 1. 1 X Console Tables 2. 1 X Handheld Uhf Equipment 3. 1 X Console Made In Formica Laminated Board (tct 3/4 Inches) Ix. Chart Table And Plotting Aids (minimum Requirements) 1. Intel Core I5 Processor 2. 8 Gb Ram 3. 256 M.2 Ssd 4. 1x Monitor 24” 5. Keyboard/mouse 6. Ups 1kva A. Surge Protection B. W/ Automatic Voltage Regulator X. 1x Parallel Ruler Xi. 1x One-hand Compass Divider Steel Xii. 1x Plotting Triangle With Handle Xiii. 1x Chart Table At Least 1000mm X 700mm Xiv. 1x Deck Log Book Xv. 1x Night Order Book Xvi. 1x Bell Book Xvii. 1x Chronometer 1 Set 4.3 Bridge Instructor Station A. Instructor Station I. 1x Computer (minimum Requirements) 1. 2x 24” Monitor 2. Intel Core I5 Processor 3. 16 Gb Ram 4. 256 M.2 Ssd 5. Rtx 4070 Or Higher 6. Keyboard/mouse 7. Ups 1.5kva 1. Surge Protection 2. W/ Automatic Voltage Regulator Ii. 1x Handset 1. Handset 2. Cradle With A Ptt Switch 3. Usb Interface Board 4. Handset Box Iii. 1x Speaker 1. Type: Desktop 2. Port: Mini Jack Iv. 1x Steel Cabinet W/ Lock 1. Metal Drawer Office Drawer 2. File Cabinet Storage With Wheel V. 1x Drone View Monitor W/ Smart Tv 55” Tv Led (environment View Of Instructor) Vi. 1x Smart Tv 55” Tv Led For Cctv Vii. 1x Printer 1. Laser Printer A4 2. A4 Print Speed Up To 48 Ppm 3. Auto 2-sided (duplex) Printing, 1-line Lcd 4. Wifi, Airprint, Mopria, Wifi Direct, Lan, Usb 2.0 5. Colored Printer Viii. Instructor Station Table Specification: Ix. 1x Table Size: At Least L 1700 X W 700 X H 750 Mm 1. Material: Formica Matt Laminate On Chipboard X. Intercom Telephone / Public Announcement System Xi. 9x Two-way Vhf Radiotelephone (walkie-talkie) With Charging Connection Xii. 1x Ergodynamic Chair Xiii. 1x Document Metal Cabinet With Glass Sliding Door 1. Size: 1850x 400mmx 900mm 2. Door Lock 1 Set 4.4 Bridge Simulator Scenario Development Station B. Scenario Development Station As An Instructor Station Capable Of Deploying Scenarios To Other Stations. I. 1x Computer (minimum Requirements) 1. 2x 24” Monitor 2. Intel Core I5 Processor 3. 16 Gb Ram 4. 256 M.2 Ssd 5. Rtx 4070 Or Higher 6. Keyboard/mouse 7. Ups 1.5kva 1. Surge Protection 2. W/ Automatic Voltage Regulator Ii. 1x Table Size: At Least L 1200 X W 800 X H 750 Mm 1. Material: Formica Matt Laminate On Chipboard Iii. 1x Ergodynamic Chair 5. Software Requirements 5.1 Full Mission Bridge Simulator The Full Mission Bridge Simulator Shall Have The Following Software And Controls For The Following Workstations: A. Workstation For Navigating, Maneuvering And Monitoring Consisting: · One (1) Ecdis Master Software · One (1) Ecdis Slave Software · One (1) Conning Display Software · One (1) Radar/arpa 3cm · One (1) Radar/arpa 10cm · Nine (9) Realistic Visualization Software With 270° Field Of View · Keyboard And Trackball Controls For Ecdis, Radar Apra And Conning Display · Two (2) Vhf Dsc Radio W Ch16 · One (1) Overhead Panel Display · One (1) Main Engine Telegraph Including Emergency Stop Control With Printer · One (1) Bow And Stern Thruster Control · One (1) Gps Software · One (1) Bridge Navigational Watch Alarm System (bnwas) · One (1) Echo Sounder · One (1) Speed Log · One (1) Vr Binoculars · One (1) Observer Position/ Visual Control · One (1) Anchor Gear And Mooring Operations Control · One (1) Towing Control · One (1) Tugs Control · One (1) Autopilot Control System · Nfu/ Fu Controls · One (1) Tiller Controls · One (1) Information On Ship Automatic Identification System (ais) · One (1) Intercom Telephone Capable For Public Address System · One (1) Conference Microphone · One (1) Control For Searchlight · One (1) Gyro Repeater/pelorus Stand That Can Display Magnetic And Gyro Compass · One (1) Bearing Finder · One (1) Alarm System Panel For General Alarm, Fire Alarm, And Other Alarms · Navigation Lights Control · Flags, Daytime Shapes And Sound Signals Control · One (1) Two-way Vhf Radiotelephone (walkie-talkie) With Charging Connection · Sound Reception System · Acknowledgment Of The Watch Alarm · Information Indicators For: - Propeller Revolutions (actual And Desired) - Main Engine Rpm - Main Engine Revolution In The Case Of Reduction Geared Engine - Propeller Pitch In The Case Of Controllable Pitch Propeller - Torque - Starting Air - Lateral Thrust - Log Speed And Speed Over The Ground - Bow And Stern Speed - Athwartship Speed - Rudder Angle - Rate-of-turn - Gyro Compass Heading - Magnetic Compass Heading - Heading Reminder (pre-set Heading) - Water Depth Including Depth Warning Adjustment - Vessel Time - Wind Direction And Velocity - Air And Water Temperature - Clinometer - Alarms - Pilot Card - Maneuvering Characteristics - Scoring Exercise/ Assessment · Signal Transmitter For: - Whistle - Automatic Device For Fog Signals - Alarms, (general Alarm, Emergency Alarm, Etc.) - Morse Signaling Light B. Workstation For Manual Steering (wheelhouse) Consisting Of: · One (1) Steering Wheel · Rudder Pump Selector Switch · Steering Mode Selector Switch · Steering Position Selector Switch · Indications For: - Gyro Compass Heading - Magnetic Compass Heading - Pre-set Heading - Rudder Angle - Rate Of Turn - Steering Mode (fu/nfu) – Track Control/auto Navigation C. Workstation For Route Planning And Documentation Consisting Of: · Computer For Route Planning Devices (ecdis) · Chart Table With Drawers For Paper Charts, Flags And Pennants · Paper Charts · Plotting Aids · Chronometer · Weather Facsimile D. Workstation For Communications Consisting Of: · One (1) Handset For Radiotelephone · Gmdss Equipment As Required For The Applicable Sea Area · Vhf-dsc, Radiotelephone · Mf-dsc, Radiotelephone · Mf/hf-dsc, Nbdp, Radiotelephone · Mf/hf Mf/hf Radio Telex · Inmarsat-ses, Egc Rx With Lrit And Ssas · Navtex/egc/hf Direct Printing Telegraph · Fbb/iridium · Cospas-sarsat Epirb · Sart · Ais Sart · Main Station For Two-way Vhf Radiotelephone · Aircraft Vhf Radiotelephone · Gmdss Alarm Panel · Radio Direction Finder Rt-500-m (marine) · Power Switchboard · Battery Charger · Virtual Printer 5.2 Mini Bridge Simulator The Mini Bridge Simulators Shall Have Each Of The Following Software And Controls For The Following Workstations: E. Workstation For Navigating, Maneuvering And Monitoring Consisting: · One (1) Ecdis Master Software · One (1) Conning Display Software · One (1) Radar/arpa Interchangeable To 3cm & 10cm · Three (3) Realistic Visualization Software With 120° Field Of View · Keyboard And Trackball Controls For Ecdis, Radar Apra And Conning Display · One (1) Vhf Dsc Radio W Ch16 · One (1) Overhead Panel Display · One (1) Main Engine Telegraph Including Emergency Stop Control With Printer · One (1) Bow And Stern Thruster Control · One (1) Gps Software · One (1) Bridge Navigational Watch Alarm System (bnwas) · One (1) Echo Sounder · One (1) Speed Log · One (1) Vr Binoculars · One (1) Observer Position/ Visual Control · One (1) Anchor Gear And Mooring Operations Control · One (1) Towing Control · One (1) Tugs Control · One (1) Autopilot Control System · Nfu/ Fu Controls · One (1) Tiller Controls · One (1) Information On Ship Automatic Identification System (ais) · One (1) Intercom Telephone Capable For Public Address System · One (1) Conference Microphone · One (1) Control For Searchlight · One (1) Vdr Remote Alarm Panel · One (1) Bearing Finder · One (1) Alarm System Panel For General Alarm, Fire Alarm, And Other Alarms · Navigation Lights Control · Flags, Daytime Shapes And Sound Signals Control · One (1) Two-way Vhf Radiotelephone (walkie-talkie) With Charging Connection · Sound Reception System · Acknowledgment Of The Watch Alarm · Information Indicators For: - Propeller Revolutions (actual And Desired) - Main Engine Rpm - Main Engine Revolution In The Case Of Reduction Geared Engine - Propeller Pitch In The Case Of Controllable Pitch Propeller - Torque - Starting Air - Lateral Thrust - Log Speed And Speed Over The Ground - Bow And Stern Speed - Athwartship Speed - Rudder Angle - Rate-of-turn - Gyro Compass Heading - Magnetic Compass Heading - Heading Reminder (pre-set Heading) - Water Depth Including Depth Warning Adjustment - Vessel Time - Wind Direction And Velocity - Air And Water Temperature - Clinometer - Alarms - Pilot Card - Maneuvering Characteristics - Scoring Exercise/ Assessment · Signal Transmitter For: - Whistle - Automatic Device For Fog Signals - Alarms, (general Alarm, Emergency Alarm, Etc.) - Morse Signaling Light F. Workstation For Manual Steering (wheelhouse) Consisting Of: · One (1) Steering Wheel · Rudder Pump Selector Switch · Steering Mode Selector Switch · Steering Position Selector Switch · Indications For: - Gyro Compass Heading - Magnetic Compass Heading - Pre-set Heading - Rudder Angle - Rate Of Turn - Steering Mode (fu/nfu) G. Workstation For Route Planning And Documentation Consisting Of: · Computer For Route Planning Devices (ecdis) · Chart Table With Drawers For Paper Charts, Flags And Pennants · Paper Charts · Plotting Aids · Chronometer H. Workstation For Communications Consisting Of: · One (1) Handset For Radiotelephone · Gmdss Equipment As Required For The Applicable Sea Area · Vhf-dsc, Radiotelephone · Mf-dsc, Radiotelephone · Mf/hf-dsc, Nbdp, Radiotelephone · Mf/hf Mf/hf Radio Telex · Inmarsat-ses, Egc Rx With Lrit And Ssas · Navtex/egc/hf Direct Printing Telegraph · Fbb/iridium · Cospas-sarsat Epirb · Sart · Ais Sart · Main Station For Two-way Vhf Radiotelephone · Aircraft Vhf Radiotelephone · Gmdss Alarm Panel · Radio Direction Finder Rt-500-m (marine) · Power Switchboard · Battery Charger · Virtual Printer 5.3 Instructor Station 1. The Instructor Workstation Is An Integral Part Of The Simulator And Is Designed To Control The Training Complex, Design (develop) Exercises, Perform Exercises In Real Time, Control Exercise Performance By Trainees, Change Environmental Conditions And Sailing Circumstances, As Well As Enter Own Ship Failure Variables, Document, And Archive The Position And Activity Of The Ship Involved In The Exercise. The Instructor Station Software Should Contain Navigation Areas As Well As Sub-tasks For Each Area, Allowing The Control Of All Active Vessels And Target Ships. 2. Navigation Instructor Software Includes: · Navigation Instructor · Evaluation And Assessment · Tug And Mooring · Radar/arpa · Electronic Navigational Chart: · Bird Eye Of Instructor · Debriefing System 3. Simulator Session(s) Control: • Exercise(s) Start, Pause, Re-start After The Pause, Stop On Bridge(s); • Setting The Initial Position For Own Ships; • Entering Faults Of Navigation Systems, Steering Gear, Propulsion Plant, Fire And General Alarm; • Ability To Set Faults Of Navigational Equipment; • Pulling Apart Ships That Have Collided Or Run Aground; • Control Of Target Vessels, Hoisting Flags Of The International Code Of Signals, Turning Their Sound Signals On And Turning Their Lights On/off; 4. The Software Modules Should Provide A Possibility To Flexibly Configure The Required Bridge Configuration. General: · An Integrated Application For Exercise Editing, Conducting And Debriefing; · Highly Accurate Data Representation Based On Vector Diagrams (ability To Automatically Load All Diagrams Related To The Selected Game Area); · Tools For Creating Exercises And Automatic Competency Assessment Scenarios; · Displaying Of The Actual Ship Contours; · Display Of Object Tracks: Contour Or Point With Selectable Resolution, Track History And Time Stamps; · Using The Mouse Wheel For Chart Scaling; · Control Of Simulator Session(s); · Continuous Automatic Recording Of Data During Exercise (main, Audio And Video Log Files); · Real Time, Slow Time, And Fast Time Modes; · Ability To Display And Print A New Pilot Card And A Table Of Maneuvering Characteristics Of The Ship; · Setting Parameters And Faults Of Navigation Equipment: Radar, Gps, Loran C, Log, Gyro, Echo Sounder, Uais; · Setting Weather And Bathymetric Conditions: Global And Local Zones, Import Of Tide And Current Databases (ecdis); · Working With Measuring Tools: - Ability To Set Erbl; - Ability To Attach, Move Or Delete Erbl During An Exercise; 9. Ability To Attach Sart To The Life Raft; 5. Ability To Move Own Ship During Exercise Without Grounding Or Collision; 6. Ability To Apply Virtual Tug Force To 8 Points Of The Vessel’s Hull In Any Direction; 7. Display Of Actual Ship's Contours; 8. Continuous Display Of Parameters Of Vessel Movement And Environment Conditions: Course And Speed Of The Vessel, Course Over The Ground, Transversal Component Of Speed On The Bow And On The Stern, Gyro Heading, Rate Of Turn, Speed And Direction Of The Current And Wind, Height And Direction Of A Wave, Depth; 9. Independent Instructor Control For Wind And Swell Components Of The Wave; 10. Ability To Set Sea State Spectrum: · Pierson-moskowitz; · Phillips; · Ittc (international Towing Tank Conference); · Jonswap (joint North Sea Wave Project); · User. 11. Ability To Exclude Hydrodynamic Interaction With Mooring Walls In The Required Area; 12. Ability To Create A Template Containing A Set Of Objects (ships), Save And Use This Template In Other Exercises; 13. Ability To Save Environment Settings As A Template And Load A Previously Saved Template In Any Exercise And Area; 14. Mooring Operations: · Ability To Set The Rope Material; · Ability To Set The Initial State Of The Mooring Winch (render, Slack Away, Stop); · Ability To Set Mooring Winch Parameters (speed, Pulling Force, Holding Force); · Ability To Operate The Mooring Winch At The Instructor Workplace. 15. Anchor Operations: · Ability To Set User Ground Type With Required Anchor Holding Force Coefficients; · Display Of Anchor Position On The Instructor's Chart On The Ground. 16. Control Of Navigational Lights And Shapes: · Ability To Control The Navigational Lights; · Ability To Switch On/off Deck Lights On Target Ships. 17. Loading/discharging Of Own Ship During Exercises; 18. Weather Conditions Manager: · Ability To Set Predefined Weather Conditions By Beaufort Number (wind, Wave, Whitecaps And Foam, 3d Clouds, Cloud Layer, Visibility) On The Fly; · Ability To Set Customized Weather Conditions; · Visual Effects: Rain And Snow (low, Medium, High), Lightning, Reflection, Translucency, Sea With White Caps, Foam, Splashes, Bow-wave; · Separate Settings For Wind Wave And Swell; · Manual Control Of Wind Direction And Strength; · Adjustment Of Atmospheric Parameters – Temperature, Humidity, Pressure; · Ability To Use Thunderstorm, Precipitation; · Automatic Calculation Of The Position Of The Sun, Moon, Major Stars (up To 100) And Constellations, The Angle And Phase Of The Moon; · Ability To Set Wave Spectrum Type: Pierson-moskowitz; Jonswap (joint North Sea Wave Project); Phillips; User-defined; · Ability To Use Thunderstorm, Precipitation. 19. Rcc, Ship And Coast Stating Assignment; 20. Log Module With Possibility To Print Out And Create Archives; 21. Window For Listening/monitoring Of The Radiotelephone Traffic Including Possibilities To Interfere With Radiotelephone Traffic; 22. Ability To Introduce Background Noise From A List And Instrument Faults To The Trainee Stations. 23. Ability To Change Names, Call Signs, Mmsi, Telex Numbers And Inmarsat Mobile Numbers Of All Emulated Ship Stations And Coast Station According To The Needs Of Different Exercises; 24. Electronic Chart With Vessel Position Indication And The Ability To Change Position, Course And Speed; 25. Ability To Display And Instantly Change Trainee Station Positions On The Electronic Map For Search And Rescue (sar) Exercises; 26. Full Monitoring Of Any Trainee Workstation – The Ability To Monitor The Status Of Each Gmdss Unit And Listen To The Radio Traffic Of Each Trainee Station; 27. Connection To An External Printer; 28. Connection To An Active Speaker For Simultaneous Viewing Of Channels; 29. Providing Functions Of A Coast Telex Or Telephone Subscriber, Coast Radio Station And Rcc Operator From The Log Window; 30. Status Window For All Instruments At Any Workstation; 31. Ability To Log Communication And Trainee Actions For Playback And Later Review; 32. Database Of Coastal Stations, Navtex And Msi Stations And Inmarsat Shore-based Stations Plotted On The Chart; 33. Information About The Gmdss Sea Areas On The Chart; 34. Approximate Estimation Of Radio Wave Propagation In The Selected Frequency Range; 35. Evaluation And Assessment Module; 36. Navtex Functionality: · Ability To Send Navtex Messages On Behalf Of A Navtex Station; · Ability To Edit And Use The Navtex Station Used-defined List; · Ability To Save And Use Navtex Message Templates. 37. “intercom” Panel. To Monitor Intercom Communication, Execute Voice Messages From The Instructor's Side. 38. Vhf Radio Station Module. To Monitor Vhf Communication, Send Voice Messages From The Instructor’s Side, Play Pre-recorded *.wav Files. 39. Coastal Radio Station Module. Screen Layout: 40. Use Of The Mouse Wheel For Chart Centering And Scaling; 41. On-screen Display Of Mooring Walls And Piers; 42. On-screen Display Of Actual Contours Of Any Ship; 43. On-screen Display Of The Object’s Route Line And Its Actual Track; 44. On-screen Display Of The True And Relative Speed Vectors; 45. Selectable Display Mode: True Motion, Relative Motion, Course Up Or North Up; 46. Display Of Prompt And Other Information In The Status Bar: · Bearing And Distance From The Current Cursor On-chart Position To The Reference Point; · Coordinates Of The Current Cursor On-chart Position; · Depth In The Current Cursor Position; · Current Exercise Time (absolute And Relative). 47. Displaying Of Object Tracks: Contour Or Point With Selectable Resolution, Track History And Time Stamp; 48. Displaying Of Walls And Piers; 49. Use Of A Mouse Wheel For Chart Centering And Scaling; 50. User Configurable Workplace; 51. Different Panels For The Control And Monitoring Of The Exercise Fulfillment: · Reports Panel – To Form And Print Exercise Fulfillment Reports; · Ship Info Panel – To Display Courses, Longitudinal And Transverse Speeds, Rates Of Turn For All The Ships Involved In The Exercise. · Evaluation And Assessment Module Panel; · Target Panel – To Control Vessel Target And Flight And Sar Objects; · Objects Panel – To Promptly Select An Object On The Chart From The List Of All The Objects Available In The Exercise; · Flags Panel – To Hoist/lower Ics Flag Signals On Any Of The Ships, Including Ability To Set And Keep Flag Templates · Events Panel – For The Automatic Recording Of Any Important Events Related To The Incorrect Trainee Actions; · Flash Light Panel – To Send Light Signals From Target Vessels, Including Automated Translation Into Morse Code; · Magnetic Deviation Panel – To Configure The Magnetic Deviation Panel For The Vessels, Participating In The Exercise, Save The Panel And Apply Desired Template To Any Own Vessel, Print The Magnetic Deviation Table; · Procedural Alarms Panel – For Defining User Set Of Alarm For Dedicated Vessels. 52. Setting Navigational Equipment Parameters And Faults: Radar, Gps, Loran C, Log, Gyro, Echo Sounder, Uais; 53. Setting The Exercise Weather And Bathymetric Conditions: Global And Local Zones, Import Of Tide And Current Databases; 54. Observing Own Ships And Targets On The Chart: Ship Info Panel, Cpatcpa Panel, Events Panel; 55. Control Of Own Ships And Targets On The Chart: Direct Control Of Steering And Propulsion Systems, Autopilot, Mooring Lines, Anchors; 56. Setting Faults Of Navigational Equipment, Steering And Propulsion System, Fire And General Alarms; 57. Continuous Data Logging During Exercises; 58. Playback Of Recorded Exercises In Real And Fast-time Modes; 59. Performing Preliminary Exercises On The Map To Check Their Suitability For Training On The Simulator; 60. Distress Signals (flare, Smoke Signals, Dye Markers); 61. Adding New Target Ships; 62. Changing Weather Conditions; 63. Moving Buoys, Turning Off Lights On Them And Hiding Them On Both The Visualization System And Radar; 64. Control Of Automatic Tugboats On Commands From The Bridge Or From The Instructor; 65. Generating And Printing Exercise Reports 5.4 Simulator Scenario Development Station 1. The Simulator Scenario Development Station Shall Be Integrated With All Engine Stations And Instructor Stations, And Can Act As An Instructor Station Capable Of Deploying Scenarios To Other Stations (bridge And Engine) 2. The Simulator Scenario Development Station Shall Have The Same Software And Control Capabilities As The Instructor Station. (see Section A 5.5.3) B. Full Mission Engine Room Simulator (fmers) And Mini Er Stations’ Features And Applications, Major Components And Engine Room Simulator Performance Standards 1. Major Components The Full Mission Engine Simulators That Can Be Integrated With Bridge Simulators Shall Consist Of The Following Major Components: A. One (1) Full Mission Engine Room Station (class A Configuration) B. Ten (10) Mini Engine Room Stations (class B Configuration) C. One (1) Server Station D. One (1) Instructor Station E. One (1) Simulator Scenario Development Station F. One (1) Briefing/ Debriefing Station 2. Features And Applications 2.1 The Man Electronic Engine Model Simulates A Suez Max Crude Oil Carrier With A Man Slow Speed Turbo Charged Diesel Engine As Propulsion Unit Modeled With Fixed Propeller. The Main Engine Models Respond Dynamically To Variations In Operation And Conditions Of The Ship Model, And The Ship Models Have Mutual Responses To The Main Engine Models. The Model Is Based On Real Engine Data That Makes The Dynamic Behavior Of The Simulator Close To Real Engine Response. In Addition To The Man Engine, The Vessel Has An Electrical Power Plant Including Three 1125 Kva Diesel Generators And One 250 Kva Emergency Generator. The Steam Plant Includes Two D-type Steam Boilers, Based On Alfa Laval And One Composite Boiler (aalborg), 3 Cargo Turbines, Condensing And Feed Water Systems. Control Room Operator Station, Bridge And Steering Panels Are Included. The System Shall Also Be Connected To The High Voltage Engine Simulator. 2.2 The Simulator Models Complies With The Requirements In The Stcw Convention, Regulation 1/12 And Fulfill The Standards Of An Internationally Recognized Classification Society For Maritime Simulator Systems. 2.3 The Engine Model Main Specifications High Fidelity Engine Room Systems Include: - Sea & Lt/ht Fresh Water Systems, Incl. Fw Generator - Electrical Power Plant, Incl. Diesel Generators And Power Management - Start & Service Air Compressors, Incl. Compressor Intermediate Coolers And Emergency Compressor - Integrated Automation System, Incl. Vessel Performance Monitor - Steam Plant Incl. D-type Oil Fired Boilers And Combined Exhaust/oil Fired Boiler - Diesel/heavy Fuel/oil Systems, Incl. Hfo, Lshfo And Mdo Tanks, Separators, Viscometers - Lubricating Oil Systems, Incl. Separator - Stern Tube Systems - Steering Gear - Main Engine Control System (man) - Main Engine Remote Control System (ac 600) - Main Engine Maneuvering System - Main Engine Hydraulic Oil System - Main Engine Hydraulic Cylinder Units System - Cylinder Indication Diagrams - Air Ventilation System - Bilge Wells & Bilge Separator - Sewage Treatment Plant - Incinerator Plant - Inert Gas System - Ballast System - Refrigeration System - Ship Loading System - Fire Detection System - Fire Fighting System - Remote Co2 Release, Emergency Stops And Quick Release Valves - Emission Control System (water Scrubbing And Me Low Nox Mode) 2.4 The Engine Simulator Product Shall Be Able To Address The Following Stcw Competencies And Shall Be Reflected In The Certificate: · Table A-iii/1.1 – Maintain Safe Engineering Watch · Table A-iii/1.3 – Used Of Internal Communication Systems · Table A-iii/1.4 – Operate Main And Auxiliary Machinery And Associated Controls · Table A-iii/1.5 – Operate Fuel, Lubrication, Ballast And Other Pumping Systems And Associated Control Systems · Table A-iii/1.6 – Operate Electrical, Electronic And Control Systems · Table A-iii/1.7 – Maintenance And Repair Of Electrical And Electronic Equipment · Table A-iii/1.11 – Maintain Seaworthiness Of The Ship 2.5 Interface To Engine Room High Voltage System - The Engine Room Model Will Be Interfaced To A Corresponding High Voltage Simulator And Gas Turbine Installed In The Academy. 3. Engine Room Simulator Performance Standards 3.1 Physical Realism The Engine Simulator Stations Shall Have The Following Physical Realism: A. Equipment And Consoles Shall Be Installed, Mounted, And Arranged In A Ship-like Manner B. The Control Room Consoles Shall Include Control And Monitoring Of The Main Engine, Auxiliary Engines And Electrical Power Generation, Steam Boiler, Pump, Compressors And All Other Alarms. C. The Remote Monitoring And Control Systems Shall Be In Compliance With The Functional Requirements Of The Classification Societies For Periodically Unattended Machinery Spaces. D. The Main Engine Remote Control Console Shall Include Command Functions And Status Indication Normally Found On Board Ships. E. The Electric Power Generation Shall Be Under Automatic Or Manual Control. Such System Should Be Able To Constantly Monitor Demand And Supply. When Deviation From Pre-set Limits Arises, The System Should Be Able To Act In Order To Normalize The Situation. The System Shall Also Perform Continuous Control Of The Frequency And Load Sharing. F. The Electric Power Supply System Shall Be Operated Either From The Switchboard Or The Power Management System. - Remote Start/stop Of Auxiliary Diesel Generators - Operation For Shaft Generator - Connect/ Disconnect Of All Generators - Automatic And Priority Selection - Non-essential Systems Trip - Constant Frequency Mode - Different Control Modes Of Load Sharing G. The Main Switchboard Shall Be A Full Scale Model Of A Typical Switchboard, And Comprise The Necessary Controls And Indicators Usually Available Of Real Generators. H. The Remote Control And Automation System Must Include Control Of The Following Equipment: - Me Lubricating Oil Pumps - Me Fresh Water Cooling Pumps - Me Sea Water Cooling Pumps - Me Auxiliary Blowers - Fuel Oil System And Pumps - Air Compressors - Steering Gear Pumps - Fire Pump Each Of The Above Individual Units Shall Allow Manual Start And Stop From The Control Room Consoles. It Shall Also Be Possible To Use Automatic Start And Stop Where Applicable. I. The Alarm Monitoring System Shall Consist Of A Typical Shipboard Alarm System. J. An Alarm Shall Be Announced By Sound And By Flashing Light In The Control Room. K. A Printer Or A Computer In The Engine Room Control Shall Be Used As An Alarm Log And Event Log. L. “dead Man Alarm System” The Simulator Shall Have The Following Additional Requirements For Low Speed Engine: M. The Simulated Engine Room Shall As A Minimum Reflect Typical Machinery Found On Merchant Ships. The Following Main Components Shall Be Simulated And All Necessary Sub-systems Included For A Low Speed Engine: - Main Engine Including Turbocharger System - 2 Auxiliary Diesel Generators - Lubrication Oil Separator - Steering Gear System - Fire Pump - Shaft Generator - Cooling Water System Including Freshwater Generation System - Turbo Generator - Fuel Oil Bunkering System - Fuel Oil Settling And Service Systems - 2 Heavy Fuel Oil Separators - 1 Diesel Oil Separator - Steam Generation Plant Including Exhaust And Oil-fired Boilers - Diesel Oil And Heavy Fuel Oil Supply To Main And Auxiliary Engines - Main Engine Operation From Engine Room, Engine Control Room And Bridge - Turbocharger System - Air Ventilation System For Engine And Control Room - Bilge Water System Including Oily Water Treatment Systems - Stern Tube System - Deck Machinery Applicable To The Ship Model - Ballast System - Sewage Treatment System The Simulator Shall Have The Following Additional Requirements For Medium And High Speed Engine: N. The Simulated Engine Room Shall Consist Of Typical Machinery Found On Merchant Ships. The Following Main Components Shall Be Simulated And All Necessary Sub-systems Included For A Medium And High Speed Engine: - One Or More Main Engines - Main Sw System - 2 Auxiliary Engines - Fuel Oil Tanks - Fuel Oil Separator - Lubrication Oil Separator - Main Engine(s), Including: • Fresh Water System • Lubrication System • Turbocharger System • Me Sw System - Reduction Gear System - Controllable Propeller Pitch Were Applicable - Steam Generation System As Applicable - Freshwater Generator - Bilge Wells And Bilge Separation System - 2 Air Compressors - Steering Gear System - Fire Pump - Electrical Power Plant - Deck Machinery Applicable To The Ship Model - Ballast System - Sewage Treatment System The Simulator Shall At Least Have The Following Additional Requirements For Machinery Spaces: O. The Simulated Machinery Spaces Shall At Least Include One Dedicated Room For This Purpose. P. At Least The Following Main Components Of The Machinery Spaces Shall Be Graphically Presented Or Represented By Mock-ups Or In Realistic Visualization (to Illustrate Physical Presence) In The Simulated Machinery Spaces: - Main Engine - Auxiliary Diesel Generators - Steam Boiler - Fire Pump Q. The Facilities For Local Operation In The Simulated Machinery Spaces Shall Consist Of Local Operating Stations For Each System. Each Station Shall Be Furnished With Start/stop (open/closed) Buttons And Status Lights, Various Numbers Of Pressure -, Temperature Indicators, Etc. The Local Operating Stations Shall At Least Give Means To Operate The Following: - Main Engine (me) - Me Lubricating Oil Systems Including Separator - Me Fresh Water Cooling System - Me Sea Water Cooling System - Me Auxiliary Blowers - 2 Auxiliary Diesel Generators - Steam Boiler - Fuel Oil System (diesel And Heavy Fuel Oil) Including Separator - 2 Air Compressors - Steering Gear System - Bilge Water System - Fire Pump R. All Valves Typically Associated With The Operation Of Above Machinery May Be Operated At The Computer Screen In A 3d Visual Form Or Mouse Operated By The Candidate. S. Internal Communication System. 3.2 Behavioral Realism The Engine Simulator Stations Shall Have The Following Behavioral Realism: A. The Simulator Models Shall Be Able To Replicate The Dynamic Behaviour Of The Machinery Systems And All Its Visual Parameters As Well As The Interactions Between The Sub-systems. B. The Simulator Models Shall Simulate The Engine Room Components With Their Procedures, As Well As Modelled Controller Systems (sensors, Controllers, Actuators, And Valves) Connected To The Processes. C. When Simulating Real Equipment The Behaviour Of Such Simulated Equipment Should Behave As Identical Aw Possible As The Original. Critical Parameters Of The Behaviour Shall Be Documented D. The Simulator Model Shall Make Applicable Controllers Available And Adjustable With Regards To Pid (proportional-integral-derivative Controller) Parameters. E. The Simulator Model Shall Provide Facilities To Allow The Injection And Resetting Of Malfunctions At Appropriate Times During Operation As Necessary. F. It Shall Be Possible To Simulate Change In Seawater Temperature And Demonstrate How This Affects The Complete Simulation Model. G. It Shall Be Possible To Simulate A Change In Air Temperature And Demonstrate How This Affects The Complete Simulation Model. H. The Simulator Shall Have All Heat Exchangers Available And Adjustable With Regards To Their Parameters (heat-transfer Factor, Heat Dissipation Are Etc.) I. The Simulator Shall Make All Pumps Available And Adjustable With Regards To Their Parameters (pump Capacity, Wear, Etc.) J. It Shall Be Possible To Demonstrate Systematically The Tests That Are Made On The Ums (unmanned Machinery Space) Alarm System. K. It Shall Be Possible To Simulate Auto Slow-down And Emergency Shut Down L. It Shall Be Possible To Simulate Safe Methods To Test Inert Gas Generator (ig) Alarms And Control. M. It Shall Be Possible To Simulate Testing Of The 24v D.c. Power Supply To The Navigation, Communication And Engine Room Control Console In Event Of Power Failure. N. It Shall Be Possible To Simulate Safe Method Of Testing The Insulation For Rotor And Stator. O. It Shall Be Possible To Simulate Of Reading A Power Factor Meter With Reference To Four Segments P. It Shall Be Possible To Simulate Testing Of The Devices And Relays Provided For Generator Protection Q. It Shall Be Possible To Simulate Tests Related To Avr (automatic Voltage Regulator) R. It Shall Be Possible To Simulate Methods Of Cooling And Checking Of Air Gap S. It Shall Be Possible To Simulate The Precautionary Measures When Megger Testing The Rotor Of A Brushless Generator T. It Shall Be Possible To Simulate Routine Tests On An Emergency Generator U. It Shall Be Possible To Simulate How A Generator Circuit Breaker Ocr (over Current Relay) Is Set And Tested. V. It Shall Be Possible To Simulate The Process Of Connecting A Shaft Generator On Load And Specific Conditions For Taking Off Load. W. It Shall Be Possible To Simulate The Procedure For Megger Testing A High Voltage System X. It Shall Be Possible To Simulate The Maintenance And Checks Carried Out On An Acb (air Circuit Breaker) Y. It Shall Be Possible To Simulate Recovery From “dead Ship” Condition. Z. It Shall Be Possible To Simulate Methods Test The “preferential Tripping Sequence” Aa. It Shall Be Possible To Simulate Methods To Tests Auto “cut In” Of Stand Fault Bb. It Shall Be Possible To Simulate Methods Of Diagnosing Single Phasing Fault. Cc. It Shall Be Possible To Simulate Operation And Maintenance Of Variable Speed Motor Starters. Dd. It Shall Be Possible To Simulate Operational Test Methods Of Oily Water Separator Monitors Ee. It Shall Be Possible To Simulate Test Methods For Level Alarms And Function Tests Of Bilge Pumping Arrangement Ff. It Shall Be Possible To Simulate The Functional Tests Of Odmcs (oil Discharge Monitoring And Control System) And Odme (oil Discharge Monitoring Equipment) System Gg. It Shall Be Possible To Simulate The Function Test Of Ows (oily Water Separator) And Ppm (parts Per Million) Unit. 3.3 Operating Environment The Engine Simulator Stations Shall Have The Following Operating Environment: A. It Shall Be To Adjust The Noise Level In The Simulated Machinery Spaces Infinite From No Added Noise Up To Minimum 100 Db(a). The Noise Shall Have A Frequency Distribution Typical For Machinery Spaces. Headset Is Provided For Each Workstation. B. It Shall Be Possible To Simulate The Sea Water Temperature At Least Infinite Between +1ºc And +30 ºc C. An Alarm Can Be Heard Through Headset Of A Candidate And By Flashing Light In The Machinery Spaces 4. Hardware Requirements 1 Set 4.1 Full Mission Engine Room Simulator A. Engine Control Room Consoles I. Ecr Pump Compressor And Power Management Console 1. 1 X Console 2. 1 X Computer 3. 2 X 24 Touch Monitors Ii. Ecr2 Alarm, Monitoring And Remote-control Console: 1. 1 X Console 2. 1 X Computer 3. 1 X Keyboard 4. 1 X 24” Touch Monitor 5. 1 X Industrial Tracker Ball Iii. Ecr3 Main Engine Remote Control And Indication Console 1. 2 X Console 2. 1 X Computer 3. 3 X 24” Touch Monitors 4. 1 X Speed Set Lever For Main Engine Remote Control And 5. Indication Console 6. Dead Man Alarm (dma) 7. Engineers Reset 8. Included Power Relay To Which Illumination In Engine Control Room And Engine Room Can Be Connected, Causing Lights In The Rooms To Go Out During A Blackout To Increase Realism. Iv. Simulated Cctv Touch Monitor 1. 1 X Computer 2. 1 X 24 Monitor V. Internal Telephone At The Following Locations 1. Instructors Station 2. Engine Control Room 3. Engine Room 4. Emergency Generator Room Vi. Main Switchboard 1. 14 X Touch Screen Monitors 2. 7 X Computers 3. 1 Set Of Speakers 4. Installed In A Switchboard Manner Vii. Engine Room Equipment 1. 4 Dome Type Virtual Walkthrough 2. 4 X High Resolution Short Throw Projector 3. 4 X Computer With Graphics Card 4. 4 X Controller Viii. Local Operating Station Console 1. 1 X Console 2. 1 X Computer 3. 1 X Keyboard 4. 1 X 24” Touch Monitor 5. 1 X Industrial Tracker Ball Ix. Engine Room Sound 1. 1 X Sub Woofer 2. 4 X Satellite Speaker X. Alarm Horn And Lamp 1. 1 X Column With Lights And Sirens Xi. Emergency Generator Room 1. 1 X Dome Type Virtual Walkthrough 2. 1 X High Resolution Short Throw Projector 3. 1 X Computer With Graphics Card 4. 1 X Controller 5. With Sound System B. All Computers Must Be The Latest Generation This Includes Processors, Memory, Graphics Card And Storage. I. Monitors: Full Hd Resolution Ii. Storage: Solid-state Drive (ssd) Iii. Processor Generation: Must Be From The Latest Generation Of Processors Iv. Graphics: Integrated Graphics Dedicated Gpu If Needed. C. Touchscreens For Durability, Responsiveness, And Multi-touch Support. D. Each Computer Must Be Paired With A Ups Unit Rated For At Least 1.5 Kva And Automatic Voltage Regulation To Handle Voltage Fluctuations. E. The Engine Control Console Must Be Made From Steel W/ Handrails 10 Sets 4.2 Mini Engine Room Simulator A. 1x Computer Specification (minimum Requirement) 1. Intel Core I5 Processor 2. 16 Gb Ram 3. 256 M.2. Ssd 4. Video Card 5. Keyboard/mouse 6. 2x At Least 24" Monitor (touchscreen) 7. Ups 1.5kva A. Surge Protection B. W/ Automatic Voltage Regulator B. 1x Table Size: At Least L 1200 X W 800 X H 750 Mm C. 1x Chairs 1 Set 4.3 Engine Instructor Station A. Instructor Station I. 1x Computer (minimum Requirements) 1. 3x 24” Monitor 2. Intel Core I5 Processor 3. 16 Gb Ram 4. 256 M.2 Ssd 5. Keyboard/mouse 6. Ups 1.5kva A. Surge Protection B. W/ Automatic Voltage Regulator Ii. 1x Speaker 1. Type: Desktop 2. Port: Mini Jack Iii. 1x Steel Cabinet W/ Lock 1. Metal Drawer Office Drawer 2. File Cabinet Storage With Wheel Iv. 1x Smart Tv 55” Tv Led For Cctv V. 1x Printer 1. Laser Printer A4 2. A4 Print Speed Up To 48 Ppm 3. Auto 2-sided (duplex) Printing, 1-line Lcd 4. Wifi, Airprint, Mopria, Wifi Direct, Lan, Usb 2.0 5. Colored Printer Vi. Instructor Station Table Specification: Vii. 11x Two-way Vhf Radiotelephone (walkie-talkie) With Charging Connection Viii. 1x Table Size: At Least L 1700 X W 700 X H 750 Mm 1. Material: Formica Matt Laminate On Chipboard Ix. 1x Ergodynamic Chair X. 1x Document Metal Cabinet With Glass Sliding Door 1. Size: 1850x 400mmx 900mm 2. Door Lock 1 Set 4.4 Engine Simulator Scenario Development Station A. Scenario Development Station As An Instructor Station Capable Of Deploying Scenarios To Other Stations (bridge And Engine) 1. 1x Computer (minimum Requirements) 2. 2x 24” Monitor 3. Intel Core I5 Processor 4. 16 Gb Ram 5. 256 M.2 Ssd 6. Rtx 4070 Or Higher 7. Keyboard/mouse 8. Ups 1.5kva A. Surge Protection B. W/ Automatic Voltage Regulator B. 1x Table Size: At Least L 1200 X W 800 X H 750 Mm I. Material: Formica Matt Laminate On Chipboard Ii. 1x Ergodynamic Chair 5. Software Requirements 5.1 Full Mission Engine Room Simulator 5.2 Mini Engine Room Simulator 5.3 Instructor Station 5.4 Simulator Scenario Development Station 1. The Simulator Scenario Development Station Shall Be Integrated With All Engine Stations And Instructor Stations, And Can Act As An Instructor Station Capable Of Deploying Scenarios To Other Stations (bridge And Engine) 2. The Simulator Scenario Development Station Shall Have The Same Software And Control Capabilities As The Instructor Station. (see Section B 5.5.3) 1 Set C. Briefing/ Debriefing Station For Bridge And Engine A. 2x Computer (minimum Requirements) 1. 1 X Pc 2. Intel Core I5 Processor 3. 16 Gb Ram 4. 500gb Ssd 5. Low Profile Video Card 6. 1x Keyboard/mouse 7. 1x Ups 1kva 8. 1x W/ Computer Table Size: At Least L 1700 X W 700 X H 750 Mm 9. Briefing And Debriefing Rooms With Playback Capability (playing Of Recorded Exercise And Assessment In Simulator B. 50x Chairs C. 1x Solid Round Table (at Least 6100 X 1220 Mm) (for Bridge Briefing/debriefing) I. (metal Legs With Laminate Board Or Solid Wood Table) D. 1x Solid Round Table (at Least 4880 X 1220 Mm) (for Engine Briefing/debriefing) I. (metal Legs With Laminate Board Or Solid Wood Table) E. 1x Smart Tv At Least 70" 4k 1. Wall Mounted. 2. 2x Hdmi 10meters F. 4x Bridge And 4x Engine) Hardware For Virtual Bridge Familiarization (minimum Requirements) 1. Display: A. Type: Lcd B. Resolution: 2064 X 2208 Per Eye C. Refresh Rate: 120 Hz D. Field Of View: E. Horizontal: 97 Degrees F. Vertical: 93 Degrees 2. Processor: A. Chipset: Qualcomm Snapdragon Xr2 Gen 2 3. Ram: 12gb 4. Storage: A. Options: 128gb, 256gb, And 512gb Variants 5. Audio: 6. Hand Tracking: Improved Hand Tracking Capability 7. Controllers: A. Type: Meta Touch Pro Controllers B. Features: Haptic Feedback, Improved Ergonomics, Rechargeable Batteries 8. Battery: A. Headset: Approximately 2-3 Hours Of Active Use B. Charging: Usb-c Fast Charging 9. Connectivity: A. Wireless: Wi-fi 6e Support B. Bluetooth: 5.2 10. Inclusions: A. Headset B. Touch Pro Controllers (pair) C. Charging Cable (usb-c) D. Power Adapter W/ Extra 1 Battery Each E. Controller Lanyards F. Glasses Spacer Ii. Add On’s: 1. 2x Strap With Battery 2. 8x Silicone Cover Face Cover 3. 4x Silicone Protective Case 4. 8x Silicone Case For Controller 5. 3 Row Vr Storage Cabinet With Lock G. The Virtual Reality Bridge Must Be Complete With Hotspots, Identification Tags And Descriptions. It Shall Also Be Available On An Offline System, Navigable. H. Playback Capability With The Following Functions: · Loading A Previously Created Exercise On A Chart Or In Engine Room; · Playing The Exercise To Explain The Task; · Uploading A Sample Log Of The Same Exercise To Explain The Correct Actions. I. Virtual Bridge Familiarization W/ Virtual Reality Device The Vr System Aims To Simulate The Overhauling Process, Enabling Immersive, Hands-on Learning And Pre-assessment Without Direct Physical Intervention On The Engine. This Approach Will Enhance Technical Skills, Reduce Risk, And Improve Efficiency In Real-world Engine Maintenance And Overhauling. The Supplier Shall Provide A Virtual Bridge And Engine With The Use Of Virtual Reality Providing The Following Visualizations: 1. Bridge Wing Equipment 2. Speaker Mic 3. Rate Of Turn 4. Engine Rpm 5. Quick Release Lifebouy 6. Remote Panel 7. Gyro Compass Repeater 8. Fire Box 9. Hatch For Maintenance 10. Thermometer Ii. Main Bridge 1. Epirb 2. Sart 3. Clear View Screen 4. Location Of Fire Extinguishers 5. Pantry With Equipment 6. Pilot Chair 7. Smoke Detectors 8. Damage Control Plans 9. Radar 1 And 2 And 3 10. Gps With Other Equipment 11. Helm Wheel 12. Indicator Control 13. Deck Light Control 14. Admiralty And Other Maritime Publications 15. Fireplan 16. Rudder Angle Indicator 17. Voice Recorder 18. Whistle Horn 19. Water Tight Door Indicators 20. Window Wipers 21. Pa Systems 22. Cargo Hold Fan Control 23. Smoke Alarm System 24. Fire Alarm System 25. General Alarm System 26. Vhf System 27. Log Books And Other Documentation 28. Ecdis Voyage Planner 29. Pressure Recorder 30. Portable Uhfs 31. Lifejackets, Rocket Flare, And Rocket Line 32. Location Of Immersion Suits 33. Barometer 34. Utc Clock 35. Radio Room Configuration 36. Posters 37. Charts 38. Compass Deck / Monkey Island 39. Radar Equipment 40. Antennas 41. Anemometer 42. And Other Equipment On The Monkey Bridge Iii. The Me-b Main Engine Vr Overhauling System Cover The Following Features Full-scale, Interactive Models Allowing For A Detailed Exploration Of All Engine Components, Including: Iv. Connection Rod & Crosshead Assembly V. Stuffing Box Assembly Vi. Piston Assembly Vii. Cylinder Liner Assembly Viii. Cylinder Cover Assembly Ix. Exhaust Valve Assembly X. The Vr Simulation Guides Users Through Disassembling, Inspecting, And Reassembling The Exhaust Valve, Focusing On Critical Tasks Like Checking Valve Seats, Spindle Condition, And Wear On Sealing Surfaces. Users Can Also Simulate Tasks Such As Lapping The Valve, Inspecting Hydraulic Actuators, And Ensuring Proper Seating Of The Valve During Reassembly. 1 Set D. Server Station For Bridge And Engine A. 2x Set Computer (minimum Requirements) 1. Intel Core I5 Processor 2. 16 Gb Ram 3. 4x 500 Ssd 4. Keyboard/mouse 5. License Operating System B. 1x Nas And Exercise Server 1. 4 Bay Nas Disk Station Quadcore Processor 2. 4x 4 Tb Hdd C. 1x Server Rack 1. Server Rack At Least 32u 2. W/ Fan D. 1x Ups 1. 5kva (5kw) 2. Sealed Lead-acid (sla) Or Lithium-ion 3. Output Voltage: 230v Ac 4. Surge Protection 5. Stabilizes Incoming Voltage Without Switching To Battery Mode 25 Sets E. Cloud Simulator-ready Computers A. Laptop 1. 13th Gen Intel Core I5-1335u 2. 16 Gb, 2 X 8 Gb, Ddr4. 2666 Mhz 3. 512 Gb, M2, Pcie Nvme, Ssd 4. Intel Iris Xe Graphics 5. Windows 11 Pro License 6. Wi-fi 6 Wireless Lan And Bluetooth 7. Keyboard With Numeric Keypad 8. 15.6", Fhd 1920x1080, 120hz, Wva, Non-touch, Anti-glare, 250 Nit, Narrow Border, Led-backlit 9. Ports: Usb 2.0, Headset Jack, Power Jack,hdmi 1.4, Usb 3.2 Gen 1 Type-a, Usb 3.2 Gen 1 Type-c™ 10. Power Adapter: 220v Ac Input, 65w 11. Accessories: Wireless Mouse 1 Set F. Network And Cctv A. 1 X High Speed Router For Remote Support B. Network Switch 1. Network Switch Specifications Manage: 2. 4x 24 Ports 10/100/1000mbps Rj45 Ports 3. 1x 8 Ports 10/100/1000mbps Rj45 Ports C. Set Cctv Monitoring 1. 1x Nvr At Least 32 Channel 2. 20x 6 Mp Fixed Dome Network Camera With Mic 3. 3x 6tb Storage (design For Cctv) D. Network Requirements: I. 72x Lan Port Ii. 1x Lot: Of Upvc, Conduit, Pull Box, Fittings, Hanger, And Support And Other Materials If Needed. Including Utp Cat6 Shielded Pure Copper, Fiber Optic Cable, Patch Panels. Iii. Installation, Engineering Labor For Entire Project. Iv. Cable Laying, Labeling, Harnessing V. Mobilization And Di-mobilization Vi. All Cabling Will Be Endpoint At Server Room (back Of Full Mission Bridge Simulator) E. Structured Cabling Systems Standard I. Stations Must Include Lan Outlets And Patch Cords. Ii. Backbone Cabling Will Be Using The Cable Tray For Lan Distribution. Iii. Lan Outlets Must Have Network Labeling Iv. Patch Panels Are Required G. Civil Works A. Program Of Work Separate Documents (attached) Part Ii. Other General Requirements 1 Ea. Project Billboard/signboard 1 L.s Occupational Safety And Health Program 1 L.s Mobilization/demobilization Part Iii. Civil, Mechanical, Electrical, & Sanitary/plumbing Works Part A. Earthworks 1 L.s Removal Of Structures And Obstruction Part C. Finishings And Other Civil Works 179.71 M² Wall, Metal Frame, Fiber Cement Board 6mm 37.92 M² Tempered Glass Door, 12mm, Reflective 23.04 M² Aluminum Glass Window 4.05 M² Doors, Solid Panel 406.28 M² Acoustical Ceiling Panel 745.2 M² Painting Works, Masonry/concrete 4.05 M² Painting Works, Wood 48.38 M² 150mm Chb Nonload Bearing(including Reinforcing Steel) 48.38 M² Plain Cement Plaster Finish 116 M² Floor Tiles, Imo Rubber, On Finish Floor 211.6 M² Floor Tiles, Imo Rubber, On Raised Floor System Part D. Electrical 1 L.s Panelboard With Main And Branch Breakers 1 L.s Wires And Wiring Devices 1 L.s Lighting Fixtures And Lamps 1 L.s Conduit, Boxes, And Fittings 1 L.s Pole Mounted Power Transformer (oisc) 1 L.s Network Cabling Part E. Mechanical 1 L.s. Door Access And Card Reader System Part F. Simulator Equipment 1 L.s Airconditioning, Package/split Type H. Terms And Conditions 1. A 3-year Warranty For The Computer Hardware And Console Peripherals 2. All Workstations Shall Have Imo Standard Rubber Mat Flooring. 3. The Software Comes With A 3-year Warranty Inclusive Of New Updates. 4. The Project Will Be Implemented Within 150 Cd. Liquidating Damages Will Be Applicable For Any Delays. 5. A Comprehensive Guide Will Be Provided, Offering Detailed Instructions On System Operation And Maintenance Activities, Facilitating Ease Of Use And System Upkeep. 6. Onsite Training Sessions Will Be Conducted By Certified Instructors And Technical Experts, Facilitating Smooth Knowledge Transfer And Ensuring Proficient System Operation. Certificates Will Be Provided Upon Completion Of Training Sessions. 7. Structured Cabling Standards To Establish A Reliable And Efficient Network Infrastructure. 8. The Simulator Manufacturer Should Be An Iso 9001:2015 And Iso 14001:2015 Certified Business. 9. The Simulator Should Be Certified By An Internationally Recognized Classification Society And May Also Be Certified By National Authorities. 10. The Software Must Be Perpetual License. 11. The Supplier Shall Conduct An Annual Face-to-face Maintenance Session To Ensure The System's Optimal Functionality And Performance. 12. The Supplier Must Resolve Any Software Or Hardware Issues Within 2 To 5 Cd Of Their Occurrence To Minimize Downtime And Disruptions. 13. All Hardware Installations Must Adhere To Software Specifications To Guarantee Seamless Integration And Operation. 14. The Computer Hardware Supplied Must Be Sourced From Proven Technology Hardware Companies, Quality And Performance Standards To Ensure Optimal Functionality And Compatibility With The Software. 15. Bidders Are Required To Offer Continuous Retraining Sessions Free Of Charge During The Warranty Period To Ensure Users' Proficiency With The System. 16. Bidders Should Provide Manufacturer Authorization Or Exclusivity Certificate To Ensure The Authenticity And Legality Of The Supplied Products. 17. The Bidder Is Responsible For Performing A Thorough Site Inspection, And A Site Inspection Certificate Issued By The Agency Shall Be Submitted As Part Of The Eligibility Requirements. 18. The Bridge Simulator Shall Be Integrated With The Engine Simulator Ensuring Compatibility And Functionality. 19. All Simulator Stations Can Connect And Enable Them To Interact With Each Other In A Coordinated Scenario. 20. The Simulator Scenario Development Station Shall Be Capable Same As An Instructor Station Capable Of Deploying Scenarios To Other Stations. 21. All Other Simulator Specifications And Capabilities Not Indicated Herein, The Simulator Shall Comply With The Simulator Performance Standards As Required In Maritime Industry Authority (marina) Evaluation Instrument For Full Mission Bridge And Engine Simulator. 22. The Bidders Should Provide A Breakdown Of The Unit Prices Of The Major Components In The Original Of Duly Signed And Accomplished Price Schedule(s) Under Financial Component Envelope Upon Bid Submission. Furthermore, They Should Provide A More Detailed Breakdown As A Condition For Issuance Of Notice To Proceed. ~~~~nothing Follows~~~~

Details: Description Sir/madam: Please Submit Your Lowest Price Quotation (including Taxes And Government Discounts) On Charged Account Basis, On The Following Supplies/materials/ Equipment On Line Item Bid Or If Labor, On Lump Sum Bid For The Account And Official Use Of The Authority. This Request For Quotation Or Your Formal Bid Proposal May Be Submitted Through E-mail At Procmiaa@gmail.com (see Note #1 For Details) Or Personally Submitted On A Sealed Envelope Stating The Company Name/address And Project Title With R.i.s. # Thru The Bid Drop Box At The Office Of The Procurement Division On Or Before May 3, 2024 @ 2:00 Pm. Please Synchronize Your Time With The Philippine Standard Time (pst) At Www.pagasa.dost.gov.ph Thank You. Elsie P. Nitollano Manager, Procurement Division Notes: 1. Quotations May Be Submitted Either Typewritten (preferred) Or Handwritten. For Quotations Sent Thru E-mail, The File Must Be On A Compressed Folder (in .zip File Format) Which Shall Be Password-protected. The Password For Accessing The Bidding Documents Will Be Disclosed By The Bidders Only During The Actual Bid Opening Which May Be Done In Person Or Thru E-mail. 2. Alternative Bids/a Bid With Options Shall Be Rejected. 3. Request For Quotation Can Be Obtained From The Office Of Procurement Division On April 30 To May 3, 2024. 4. Warranty Shall Be For A Period Of One (1) Year, Which Shall Commence After The Final Acceptance Of The End-user. 5. Price Validity Shall Be For A Period Of 120 Calendar Days From Opening Of Bid. 6. Submit Sample/s And Brochure/s, If Applicable, Showing Specifications Of Product Being Offered. Likewise State The Brand In The Rfq Or Bid Proposal. 7. If Awarded, The Bidder Shall Submit The Required Registration Documents. Qty. Unit Description Of Articles Abc/unit Unit Price 1 Lot Supply Of Labor, Materials, Tools And Equipment Including Technical 995,136.25 Supervision For The Siphoning, General/manual Cleaning Including Disinfecting Of South Loading Dock, Naia Terminal 3 625 Cu.m Siphoning, Cleaning And Hauling Including Disinfecting 50 Cu.m Hauling Of Sludge And Wastewater 2 Sets Installation Of Ultrasonic Level Sensor Chemicals To Be Used: 10 Pails Deodorizer/sanitizer, 20 Liters/pail For Disinfection And Treatment Of Sewage, Deodorization: For Control Of Micro- Organisms, Algae, Slime And Reduction Of B.o.d. (biochemical Oxygen Demand) Liquid; Brown Color; Odor Of Pine; Ph @ 25°c: 3.74; Specific Gravity @ 25°c: 1; Completely Soluble In Water 6 Pails Grease Trap Cleaner, 20 Liters/pail Heavy Duty, Water-based Cleaner That Break Molecular Bonds Between Soil, Oil Build-up Dirts, Heavy Soiled Areas And Other Organic Matter Green Liquid/apple Scent; Ph: 13.8; Specific Gravity @ 25°c: 1.06 6 Lbs. Freeze Dried Bacteria With Enzyme Increases The Biodegradation Of Organic Waste, Increases Digestive Capacity And Gas Production, Reduces B.o.d., Suspended Solids And Sludge Volume, And Eliminates Odor Appearance: Tan Dry Material With Pleasant Odor; Dilution Rate And Ready To Use 4 Pails Sewer And Drain Cleaning Compound, 20 Liters/pail A Non-acid Sewer And Drain-safe Cleaning Compound Used In All Plumbing Lines, Septic Tanks And Garbage Disposal. Can Dissolve Starches, Fats, Oils, Grease Hair, Vegetable Gums And Other Organic Waste Notes: 1. Bidders Are Required To Comply With The Following Technical Personnel: Sanitary Engineer And Safety Officer Hence, To Submit A License For Sanitary Engineer And Certificate Of Accreditation As Osh Practitioner From Dole For Safety Officer. 2. Bidders Are To Submit Original Copy Of Product Data Sheet, Dost/itdi Test Report For Deodorizer/sanitizer, Grease Trap Cleaner, Sewer And Drain Cleaning Compound, Material Safety Data Sheet And Sample In Original Packaging Needed For Technical Evaluation. Sample Submitted Should Be The Same As The Actual Item To Be Delivered. 3. Bidders Are Required To Have The Following Tools And Equipment Available For The Project And Shall Submit The Following To The End-user For Inspection As Part Of The Technical Evaluation: A. Electric Router; B. Jet Washer; C. Gas Detector 4. Bidders Are Required To Submit Pictures (before,during,after) As Proof Of Their Siphoning Works And Must Include Their Materials Used During The Process. 5. Bidders Are Required To Submit Methodology Of Siphoning Works. Prepared And Canvassed By: John Patrick P. Lazaro Procurement Officer Procurement Division Manila International Airport Authority Tel. No.: 877-1109 Local 4300

Details: Description Request For Quotation (rfq) May 16, 2024 P. R. No.: 2024-05-0845 R.i.s. No.: 24-83-122 Company Name: ____________________________________________ Address: ___________________________________________________ Tel. No.: ___________________________________________________ Sir/madam: Please Submit Your Lowest Price Quotation (including Taxes And Government Discounts) On Charged Account Basis, On The Following Supplies/materials/ Equipment On Line Item Bid Or If Labor, On Lump Sum Bid For The Account And Official Use Of The Authority. This Request For Quotation Or Your Formal Bid Proposal May Be Submitted Through E-mail At Procmiaa@gmail.com (see Note #1 For Details) Or Personally Submitted On A Sealed Envelope Stating The Company Name/address And Project Title With R.i.s. # Thru The Bid Drop Box At The Office Of The Procurement Division On Or Before May 20, 2024 @ 2:00 Pm. Please Synchronize Your Time With The Philippine Standard Time (pst) At Www.pagasa.dost.gov.ph Thank You. Elsie P. Nitollano Manager, Procurement Division Note: 1. Quotations May Be Submitted Either Typewritten (preferred) Or Handwritten. For Quotations Sent Thru E-mail, The File Must Be On A Compressed Folder (in .zip File Format) Which Shall Be Password-protected. The Password For Accessing The Bidding Documents Will Be Disclosed By The Bidders Only During The Actual Bid Opening Which May Be Done In Person Or Thru E-mail. 2. Alternative Bids/a Bid With Options Shall Be Rejected. 3. Request For Quotation Can Be Obtained From The Office Of Procurement Division On May 17 - 20, 2024 . 4. Warranty Shall Be For A Period Of Three (3) Months, Which Shall Commence After The Final Acceptance Of The End-user 5. Price Validity Shall Be For A Period Of 120 Calendar Days From Opening Of Bid. 6. Submit Sample/s And Brochure/s, If Applicable, Showing Specifications Of Product Being Offered. Likewise State The Brand In The Rfq Or Bid Proposal. 7. If Awarded, The Bidder Shall Submit The Required Registration Documents. Item No. Qty. Unit Description Of Articles Abc/unit Unit Price Offer (brand/make/origin) 1 1 Lot Supply Of Labor And Materials For Declogging, Siphoning, 882,050.00 Hauling And General Cleaning Of Flood Control System Reservoir At Naia T4 500 Cu.m. Siphoning, Cleaning Including Disinfecting 300 Cu.m. Hauling Of Solid Debris And Non-biodegradable Materials Materials To Be Used: 3 Pails Deodorizer/sanitizer, 20 Liters/pail For Disinfection And Treatment Of Sewage, Deodorization: For Control Of Microorganisms, Algae, Slime And Reduction Of Biochemical Oxygen Demand Physical Data: Physical State: Liquid; Appearance And Odor: Brown Color, Odor Of Pine Ph@ 25c: 374 Specific Gravity @25c: 1.00 Flammability: N/a Flash Point: N/a Solubility In Water: Completely Soluble 3 Pails Grease Trap Cleaner, 20 Liters/pail Heavy Duty, Water-based Cleaner That Break Molecular Bonds Between Soil, Oil Build-up Dirts, Heavy Soiled Areas And Other Organic Matter Physical Data: Appearance/odor: Green Liquid/apple Scent; Ph: =13.8 Specific Gravity: 1.06; Detergency: Excellent Foaming: Moderate Scope Of Work: 1. Declogging, Siphoning, Cleaning. 2. Hauling Of Sludge. 3. Application Of Deodorizer And Grease Cleaner. General Notes: 1. Bidders Are Required To Comply With The Following Technical Personnel: A. Sanitary Officer B. Safety Officer Hence, To Submit License For Sanitary Engineer And Certificate Of Accreditation As Osh Practitioner From Dole For Safety Officer. 2. Bidders To Submit Original Copy Of Product Data Sheet, Itdi Test Report For Grease Trap Cleaner And Deodorizer, Material Safety Data Sheet And Sample In Original Packaging Needed For Technical Evaluation. The Sample Submitted Should Be The Same As The Actual Item Delivered. Miaa Employee Has The Right To Reject The Said Material If Not Complying With The Required Specifications. 3. Bidders Are Required To Have The Following Tools And Equipment Available For The Project And Shall Submit The Following To The End-user For Inspection As Part Of The Evaluation. A. Jet Washer B. Gas Detector 4. Bidders Are Required To Submit Pictures (before, During, After) As Proof Of Their Siphoning Works And Must Include Their Materials Used During The Process. 5. Bidders Are Required To Submit Methodology Of Siphoning Works. Note: 1. One (1) Time Maintenance Prepared And Canvassed By : Michael Angelo J. Eleazar Analyst Procurement Division Manila International Airport Authority Tel. No.: 8877-1109 Loc. 3602 In Connection To The Above Request, We Hereby Submit Our Quotation As Indicated Above And That We Agree To Deliver The Items/complete The Project As Per Specifications Within 30 Calendar / Working Days Upon Receipt Of Corresponding Purchase/work Orders. Authorized Representative (print Name And Signature) Contact Numbers Date

Details: Description Request For Quotation (rfq) February 14, 2024 P.r. No.: 2024-01-007 R.i.s. No.: 23-83-285 Gentlemen: Please Submit Your Lowest Price Quotation (including Taxes And Government Discounts) On Charged Account Basis, On The Following Supplies/materials/ Equipment On Line Item Bid Or If Labor, On Lump Sum Bid For The Account And Official Use Of The Authority. This Request For Quotation Or Your Formal Bid Proposal May Be Submitted Through E-mail At Procmiaa@gmail.com (see Note #1 For Details) Or Personally Submitted On A Sealed Envelope Stating The Company Name/address And Project Title With R.i.s. # Thru The Bid Drop Box At The Office Of The Procurement Division On Or Before February 20, 2024 @ 2:00 Pm. Please Synchronize Your Time With The Philippine Standard Time (pst) At Www.pagasa.dost.gov.ph Thank You. Elsie P. Nitollano Manager, Procurement Division Note: 1. Quotations May Be Submitted Either Typewritten (preferred) Or Handwritten. For Quotations Sent Thru E-mail, The File Must Be On A Compressed Folder (in .zip File Format) Which Shall Be Password-protected. The Password For Accessing The Bidding Documents Will Be Disclosed By The Bidders Only During The Actual Bid Opening Which May Be Done In Person Or Thru E-mail. 2. Alternative Bids/a Bid With Options Shall Be Rejected. 3. Request For Quotation Can Be Obtained From The Office Of Procurement Division On February 16 To 20, 2024. 4. Warranty Shall Be For A Period Of Three (3) Months, Which Shall Commence After The Final Acceptance Of The End-user 5. Price Validity Shall Be For A Period Of 120 Calendar Days From Opening Of Bid. 6. Submit Sample/s And Brochure/s, If Applicable, Showing Specifications Of Product Being Offered. Likewise State The Brand In The Rfq Or Bid Proposal. 7. If Awarded, The Bidder Shall Submit The Required Registration Documents. Item No. Qty. Unit Description Of Articles Abc Unit Price Offer (brand/ Make/ Origin) 1 1 Lot Supply Of Labor, Materials, Tools And Equipment Including 997,812.50 Technical Supervision For The Sludge Hauling/siphoning And General/manual Cleaning Of Lifting Station At Terminal 1 300 L.m Declogging 510 Cu.m Siphoning, Cleaning, Removal 241 Cu.m Hauling Of Sludge And Wastewater Chemicals To Be Used: 6 Pails Deodorizer/sanitizer 4 Pails Grease Trap Cleaner 6 Lbs Freeze Dried Bacteria With Enzyme Methodology Of Siphoning And General Cleaning 1. Mobilization Of Men, Materials And Equipment 2. Enclosure Of The Entire Area Of Manhole By Putting Covers, Caution Tapes And Cones 3. Checking Of Gas Safety Level Using Portable Multi-gas Detector And Proper Ventilation Upon Opening Of Septic Vault Prior To Siphoning 4. Application Of Disinfectant Cleaner/sanitizer For Disinfection And Treatment Of Sewage And Controlling Of Micro Organism, Algae And Slime Prior To Actual Desludging. 5. Additional Amount Of Water Is Needed To Continuously Mix The Solid Sludge/human Waste Etc. During Siphoning 6. Manual Removal And Disposal Of Solid Sludge, Waste Garbage Materials Etc. Tangled In The Screen Filter Mesh 7. Declogging And Cleaning Of Pipeline Using Sewer And Drain Cleaning Compound In Every Toilet Using Electric Router Motor And High Pressure Water Jetting To Remove Waste Garbage Materials Of The Entire Pipeline 8. Cleaning Of Walls Of The Septic Tank Using Grease Trap Cleaner 9. Pouring Of Waste Water Plant Freeze Dried Bacteria With Enzyme Designed To Liquify And Consume Organic Waste Commonly Found In Domestic Drainage And Sewage/septic System 10. Inspection Of Designated Miaa Personnel 11. Clean Up And Turnover 12. Demobilization Notes: 1. The Contractor Is Required To Have Technical Personnel (safety Officer And Sanitary Engineer) To Supervise The Project 2. The Contractor Is Required To Submit Pictures Before, During And After As A Proof Of Siphoning Works And Include Their Materials Used During The The Process 3. The Contractor Must Have Their Own Tools And Equipment (electric Router, Jet Washer And Gas Detector) For The Project 4. All Additional Materials/scope Of Work Not Included In The Above List But Needed To Complete The Project Shall Be For The Account Of The Contractor 5. Bidders Are Required To Submit Methodology Of Siphoning Works 6. Bidders Are Required To Submit Original Data Sheet,/dost Itdi Test Report, Material Safety Data Sheet, And Sample In Original Packing Of The Deodorizer/sanitizer And Grease Trap Cleaner Needed For Technical Evaluation 7. Bidders Are Required To Submit Microbiological Testing For Freeze Dried Bacteria Prepared And Canvassed By : Benjamin T. Manalili Iii Procurement Officer Procurement Division Manila International Airport Authority Tel. No.: 8877-1755 Sir: In Connection To The Above Request, We Hereby Submit Our Quotation As Indicated Above And That We Agree To Deliver The Items/complete The Project As Per Specifications Within 15 Calendar / Working Days Upon Receipt Of Corresponding Purchase/work Orders. Authorized Representative (print Name And Signature) Contact Numbers Date

Details: Objective: The Objective Of The Standing Offer Is To Provide Plumbing And Water Heating Maintenance And Installation Services For The Department Of Fisheries And Oceans At The Pacific Biological Station, Nanaimo, B.c. The Work Is To Be Furnished On “as And When Requested” Basis. The Pacific Biological Station Is Comprised Of 32 Individual Structures With Main Occupancy Structures Housing Offices, Common Spaces And Laboratories. The Site Relies On Both Municipal Potable Water And Salt Water Intake Systems For Use In Various Processes Throughout The Site. Support Structures Include Various Process Equipment Including Steam And Hot Water Boilers, Pumps, Air Compressors And Various Filtration Systems. Requirement Of Service Will Involve The Repair And Installation Commercial And Industrial Plumbing Related Equipment. Background: The Pacific Biological Station Is A Renowned Centre For Scientific Research Encompassing Several Facilities Including Laboratories, Aquaculture Facilities, Cold Rooms, Computer Networks, Ammonia Chiller Plant For Chilled Process Services, Warehouse Spaces, And Wharfs. The Complex Is Situated On A 5.7 Hectare Site With 1,828 M2 Primary Offices In A Four Storey Building And 935 M2 Three Storey Building. The Site Also Consists Of A Four Storey 5,714 M2 Laboratory Wing And 650 M2 Single Storey Aquaculture Building. Subsidiary Buildings Include A Salt Water Pump House Supplying Research Sea Water At Flows Up To 2.3 M3 Per Minute, An Ammonia Chiller Plant Building, And Out Buildings Of Approximately 13,234 M2 Total Area. Plumbing Arrangements Include Acid Waste Systems, Lab Vacuum Piping Systems, Fire Sprinkler Systems, Distilled Water Systems, Glycol And Water Chilled Cooling Systems, Heated And Chilled Salt Water Systems, Heated And Chilled Fresh Water Systems, Potable Domestic Hot And Cold Water Systems, Lab Effluent Treatment Systems, Sewage Pumping Systems, Sanitary Waste Systems, Roof And Perimeter Drainage Systems, Roadway Drainage Oil Separators, Process Waste Systems, Site Fire Main Systems, And Wharf Connections For Potable And Fire Main Water. Heating Arrangements Consist Of Natural Gas Building Furnaces And Boiler Heating For Domestic Hot Water, And Process Water Heating. Scope Of Work: Requested Services Will Be Identified In Each Call-up. Call-ups May Include, But Are Not Limited To, Any Or All Of The Following Services: • Assemble Pipe Sections, Tubing And Fittings, Using Couplings, Clamps, Screws, Bolts, Cement, Plastic Solvent, Caulking, Or Soldering, Brazing And Welding Equipment Or Any Other Method Or Tool Approved And Necessary For The Performance Of The Work. • Fill Pipes Or Plumbing Fixtures With Water Or Air And Observe Pressure Gauges To Detect And Locate Leaks. • Repairs Needed Associated To Glycol Systems Including But Not Limited To Repairs Of Piping, Valves, Flanges And Recharging Of Glycol. • Verify Proper Operation Of Boilers And Conduct Maintenance. Service Include Testing Of All Safety Devices Associated To Small Steam Boilers (steam And Condensing) And Boiler Associated Equipment. • Inspection And Installation Of Backflow Preventers. • Study Building Plans And Inspect Structures To Assess Material And Equipment Needs, To Establish The Sequence Of Pipe Installations, And To Plan Installation Around Obstructions Such As Electrical Wiring. • Locate And Mark The Position Of Pipe Installations, Connections, Passage Holes, And Fixtures In Structures, Using Measuring Instruments Such As Precision Rulers And Laser Levels. • Measure, Cut, Thread, And Bend Pipe To Required Angle, Using Hand Or Power Tools Or Machines Such As Pipe Cutters, Pipe-threading Machines, And Pipe-bending Machines. • Install Pipe Assemblies, Fittings, Valves, Appliances Such As Dishwashers And Water Heaters, And Fixtures Such As Sinks And Toilets. • Cut Openings In Structures To Accommodate Pipes And Pipe Fittings. • Repair And Maintain Plumbing, Replacing Defective Washers, Replacing Or Mending Broken Pipes, And Opening Clogged Drains. • Replace Underground Storm, Sanitary And Water Piping Systems And Extend Piping To Connect Fixtures And Plumbing To These Systems. • Replace And Service Large Pumps Supplying Salt And Fresh Water To Lines Ranging From 4” In Diameter To 14” Diameter. The Service Would Include Bearing Repairs, Shaft Alignment, Repair Couplings And Perform Testing On Pump Motors. • Supply And Install Stainless Steel, Abs Or Pvc Piping, Valves And Associated Fixtures. Comprehensive Land Claims Agreement: The Standing Offer (so) Is For The Delivery Of The Requirement Detailed In The So To The Identified Users Across Canada, Excluding Locations Within Yukon, Northwest Territories, Nunavut, Quebec, And Labrador That Are Subject To Comprehensive Land Claims Agreements (clcas). Any Requirement For Deliveries To Locations Within Clcas Areas Within Yukon, Northwest Territories, Nunavut, Quebec, Or Labrador Will Have To Be Treated As A Separate Procurement, Outside Of The Standing Offer. Ownership Of Intellectual Property: N/a Security Requirement: This Solicitation Contains A Security Requirement. Period Of Standing Offer: The Period Of Standing Offer Shall Be From Date Of Award To 5 Years (60 Months) Thereafter. Trade Agreements: The Requirement Is Subject To The Canada-chile Free Trade Agreement (ccfta), Canada-colombia Free Trade Agreement, Canada-peru Free Trade Agreement (cpfta), World Trade Organization-agreement On Government Procurement (wto-agp), Canada-panama Free Trade Agreement, Canada-korea Free Trade Agreement (ckfta), Canada - Ukraine Free Trade Agreement (cufta), Canada - European Union Comprehensive Economic And Trade Agreement (ceta), Canada-honduras Free Trade Agreement, The Comprehensive And Progressive Agreement For Trans-pacific Partnership (cptpp), And The Canadian Free Trade Agreement (cfta). Standing Offer Authority: Name: Juan Villasana Phone Number: 343 597 5129 Email Address: Dfo.tenders-soumissions.mpo@dfo-mpo.gc.ca Inquiries: Inquiries Regarding This Rfso Requirement Must Be Submitted To The Standing Offering Authority Named Above. Offerors Are Advised That “canadabuys.canada.ca/en” Is Not Responsible For The Distribution Of Solicitation Documents. The Crown Retains The Right To Negotiate With Any Supplier On Any Procurement. Documents May Be Submitted In Either Official Language.

Details: Notice Of Proposed Procurement (npp) This Rfso Cancels And Supersedes Previous Rfso Number 30004465, Dated December 01, 2023 With A Closing Of January 10, 2023 At 2:00 Pm Est. Some Offerors Will Be Invited Directly. Solicitation #: 30004465a This Requirement Is For Fisheries And Oceans Canada. Title: Plumbing Maintenance & Repair Services At The Pacific Biological Station. Objective: The Objective Of The Standing Offer Is To Provide Plumbing And Water Heating Maintenance And Installation Services For The Department Of Fisheries And Oceans At The Pacific Biological Station, Nanaimo, B.c. The Work Is To Be Furnished On “as And When Requested” Basis. The Pacific Biological Station Is Comprised Of 32 Individual Structures With Main Occupancy Structures Housing Offices, Common Spaces And Laboratories. The Site Relies On Both Municipal Potable Water And Salt Water Intake Systems For Use In Various Processes Throughout The Site. Support Structures Include Various Process Equipment Including Steam And Hot Water Boilers, Pumps, Air Compressors And Various Filtration Systems. Requirement Of Service Will Involve The Repair And Installation Commercial And Industrial Plumbing Related Equipment. Background: The Pacific Biological Station Is A Renowned Centre For Scientific Research Encompassing Several Facilities Including Laboratories, Aquaculture Facilities, Cold Rooms, Computer Networks, Ammonia Chiller Plant For Chilled Process Services, Warehouse Spaces, And Wharfs. The Complex Is Situated On A 5.7 Hectare Site With 1,828 M2 Primary Offices In A Four Storey Building And 935 M2 Three Storey Building. The Site Also Consists Of A Four Storey 5,714 M2 Laboratory Wing And 650 M2 Single Storey Aquaculture Building. Subsidiary Buildings Include A Salt Water Pump House Supplying Research Sea Water At Flows Up To 2.3 M3 Per Minute, An Ammonia Chiller Plant Building, And Out Buildings Of Approximately 13,234 M2 Total Area. Plumbing Arrangements Include Acid Waste Systems, Lab Vacuum Piping Systems, Fire Sprinkler Systems, Distilled Water Systems, Glycol And Water Chilled Cooling Systems, Heated And Chilled Salt Water Systems, Heated And Chilled Fresh Water Systems, Potable Domestic Hot And Cold Water Systems, Lab Effluent Treatment Systems, Sewage Pumping Systems, Sanitary Waste Systems, Roof And Perimeter Drainage Systems, Roadway Drainage Oil Separators, Process Waste Systems, Site Fire Main Systems, And Wharf Connections For Potable And Fire Main Water. Heating Arrangements Consist Of Natural Gas Building Furnaces And Boiler Heating For Domestic Hot Water, And Process Water Heating. Scope Of Work: Requested Services Will Be Identified In Each Call-up. Call-ups May Include, But Are Not Limited To, Any Or All Of The Following Services: • Assemble Pipe Sections, Tubing And Fittings, Using Couplings, Clamps, Screws, Bolts, Cement, Plastic Solvent, Caulking, Or Soldering, Brazing And Welding Equipment Or Any Other Method Or Tool Approved And Necessary For The Performance Of The Work. • Fill Pipes Or Plumbing Fixtures With Water Or Air And Observe Pressure Gauges To Detect And Locate Leaks. • Repairs Needed Associated To Glycol Systems Including But Not Limited To Repairs Of Piping, Valves, Flanges And Recharging Of Glycol. • Verify Proper Operation Of Boilers And Conduct Maintenance. Service Include Testing Of All Safety Devices Associated To Small Steam Boilers (steam And Condensing) And Boiler Associated Equipment. • Inspection And Installation Of Backflow Preventers. • Study Building Plans And Inspect Structures To Assess Material And Equipment Needs, To Establish The Sequence Of Pipe Installations, And To Plan Installation Around Obstructions Such As Electrical Wiring. • Locate And Mark The Position Of Pipe Installations, Connections, Passage Holes, And Fixtures In Structures, Using Measuring Instruments Such As Precision Rulers And Laser Levels. • Measure, Cut, Thread, And Bend Pipe To Required Angle, Using Hand Or Power Tools Or Machines Such As Pipe Cutters, Pipe-threading Machines, And Pipe-bending Machines. • Install Pipe Assemblies, Fittings, Valves, Appliances Such As Dishwashers And Water Heaters, And Fixtures Such As Sinks And Toilets. • Cut Openings In Structures To Accommodate Pipes And Pipe Fittings. • Repair And Maintain Plumbing, Replacing Defective Washers, Replacing Or Mending Broken Pipes, And Opening Clogged Drains. • Replace Underground Storm, Sanitary And Water Piping Systems And Extend Piping To Connect Fixtures And Plumbing To These Systems. • Replace And Service Large Pumps Supplying Salt And Fresh Water To Lines Ranging From 4” In Diameter To 14” Diameter. The Service Would Include Bearing Repairs, Shaft Alignment, Repair Couplings And Perform Testing On Pump Motors. • Supply And Install Stainless Steel, Abs Or Pvc Piping, Valves And Associated Fixtures. Comprehensive Land Claims Agreement: The Standing Offer (so) Is For The Delivery Of The Requirement Detailed In The So To The Identified Users Across Canada, Excluding Locations Within Yukon, Northwest Territories, Nunavut, Quebec, And Labrador That Are Subject To Comprehensive Land Claims Agreements (clcas). Any Requirement For Deliveries To Locations Within Clcas Areas Within Yukon, Northwest Territories, Nunavut, Quebec, Or Labrador Will Have To Be Treated As A Separate Procurement, Outside Of The Standing Offer. Ownership Of Intellectual Property: N/a Security Requirement: This Solicitation Contains A Security Requirement. Period Of Standing Offer: The Period Of Standing Offer Shall Be From Date Of Award To 5 Years (60 Months) Thereafter. Trade Agreements: The Requirement Is Subject To The Canada-chile Free Trade Agreement (ccfta), Canada-colombia Free Trade Agreement, Canada-peru Free Trade Agreement (cpfta), World Trade Organization-agreement On Government Procurement (wto-agp), Canada-panama Free Trade Agreement, Canada-korea Free Trade Agreement (ckfta), Canada - Ukraine Free Trade Agreement (cufta), Canada - European Union Comprehensive Economic And Trade Agreement (ceta), Canada-honduras Free Trade Agreement, The Comprehensive And Progressive Agreement For Trans-pacific Partnership (cptpp), And The Canadian Free Trade Agreement (cfta).

Details: Notice Of Proposed Procurement (npp) This Rfso Cancels And Supersedes Previous Rfso Number 30004465a, Dated January 29, 2024 With A Closing Of February 13, 2024 At 2:00 Pm Est. Some Offerors Will Be Invited Directly. Solicitation #: 30004465b This Requirement Is For Fisheries And Oceans Canada. Title: Plumbing Maintenance & Repair Services At The Pacific Biological Station. Objective: The Objective Of The Standing Offer Is To Provide Plumbing And Water Heating Maintenance And Installation Services For The Department Of Fisheries And Oceans At The Pacific Biological Station, Nanaimo, B.c. The Work Is To Be Furnished On “as And When Requested” Basis. The Pacific Biological Station Is Comprised Of 32 Individual Structures With Main Occupancy Structures Housing Offices, Common Spaces And Laboratories. The Site Relies On Both Municipal Potable Water And Salt Water Intake Systems For Use In Various Processes Throughout The Site. Support Structures Include Various Process Equipment Including Steam And Hot Water Boilers, Pumps, Air Compressors And Various Filtration Systems. Requirement Of Service Will Involve The Repair And Installation Commercial And Industrial Plumbing Related Equipment. Background: The Pacific Biological Station Is A Renowned Centre For Scientific Research Encompassing Several Facilities Including Laboratories, Aquaculture Facilities, Cold Rooms, Computer Networks, Ammonia Chiller Plant For Chilled Process Services, Warehouse Spaces, And Wharfs. The Complex Is Situated On A 5.7 Hectare Site With 1,828 M2 Primary Offices In A Four Storey Building And 935 M2 Three Storey Building. The Site Also Consists Of A Four Storey 5,714 M2 Laboratory Wing And 650 M2 Single Storey Aquaculture Building. Subsidiary Buildings Include A Salt Water Pump House Supplying Research Sea Water At Flows Up To 2.3 M3 Per Minute, An Ammonia Chiller Plant Building, And Out Buildings Of Approximately 13,234 M2 Total Area. Plumbing Arrangements Include Acid Waste Systems, Lab Vacuum Piping Systems, Fire Sprinkler Systems, Distilled Water Systems, Glycol And Water Chilled Cooling Systems, Heated And Chilled Salt Water Systems, Heated And Chilled Fresh Water Systems, Potable Domestic Hot And Cold Water Systems, Lab Effluent Treatment Systems, Sewage Pumping Systems, Sanitary Waste Systems, Roof And Perimeter Drainage Systems, Roadway Drainage Oil Separators, Process Waste Systems, Site Fire Main Systems, And Wharf Connections For Potable And Fire Main Water. Heating Arrangements Consist Of Natural Gas Building Furnaces And Boiler Heating For Domestic Hot Water, And Process Water Heating. Scope Of Work: Requested Services Will Be Identified In Each Call-up. Call-ups May Include, But Are Not Limited To, Any Or All Of The Following Services: • Assemble Pipe Sections, Tubing And Fittings, Using Couplings, Clamps, Screws, Bolts, Cement, Plastic Solvent, Caulking, Or Soldering, Brazing And Welding Equipment Or Any Other Method Or Tool Approved And Necessary For The Performance Of The Work. • Fill Pipes Or Plumbing Fixtures With Water Or Air And Observe Pressure Gauges To Detect And Locate Leaks. • Repairs Needed Associated To Glycol Systems Including But Not Limited To Repairs Of Piping, Valves, Flanges And Recharging Of Glycol. • Verify Proper Operation Of Boilers And Conduct Maintenance. Service Include Testing Of All Safety Devices Associated To Small Steam Boilers (steam And Condensing) And Boiler Associated Equipment. • Inspection And Installation Of Backflow Preventers. • Study Building Plans And Inspect Structures To Assess Material And Equipment Needs, To Establish The Sequence Of Pipe Installations, And To Plan Installation Around Obstructions Such As Electrical Wiring. • Locate And Mark The Position Of Pipe Installations, Connections, Passage Holes, And Fixtures In Structures, Using Measuring Instruments Such As Precision Rulers And Laser Levels. • Measure, Cut, Thread, And Bend Pipe To Required Angle, Using Hand Or Power Tools Or Machines Such As Pipe Cutters, Pipe-threading Machines, And Pipe-bending Machines. • Install Pipe Assemblies, Fittings, Valves, Appliances Such As Dishwashers And Water Heaters, And Fixtures Such As Sinks And Toilets. • Cut Openings In Structures To Accommodate Pipes And Pipe Fittings. • Repair And Maintain Plumbing, Replacing Defective Washers, Replacing Or Mending Broken Pipes, And Opening Clogged Drains. • Replace Underground Storm, Sanitary And Water Piping Systems And Extend Piping To Connect Fixtures And Plumbing To These Systems. • Replace And Service Large Pumps Supplying Salt And Fresh Water To Lines Ranging From 4” In Diameter To 14” Diameter. The Service Would Include Bearing Repairs, Shaft Alignment, Repair Couplings And Perform Testing On Pump Motors. • Supply And Install Stainless Steel, Abs Or Pvc Piping, Valves And Associated Fixtures. Comprehensive Land Claims Agreement: The Standing Offer (so) Is For The Delivery Of The Requirement Detailed In The So To The Identified Users Across Canada, Excluding Locations Within Yukon, Northwest Territories, Nunavut, Quebec, And Labrador That Are Subject To Comprehensive Land Claims Agreements (clcas). Any Requirement For Deliveries To Locations Within Clcas Areas Within Yukon, Northwest Territories, Nunavut, Quebec, Or Labrador Will Have To Be Treated As A Separate Procurement, Outside Of The Standing Offer. Ownership Of Intellectual Property: N/a Security Requirement: This Solicitation Contains A Security Requirement. Period Of Standing Offer: The Period Of Standing Offer Shall Be From Date Of Award To 5 Years (60 Months) Thereafter. Trade Agreements: The Requirement Is Subject To The Canada-chile Free Trade Agreement (ccfta), Canada-colombia Free Trade Agreement, Canada-peru Free Trade Agreement (cpfta), World Trade Organization-agreement On Government Procurement (wto-agp), Canada-panama Free Trade Agreement, Canada-korea Free Trade Agreement (ckfta), Canada - Ukraine Free Trade Agreement (cufta), Canada - European Union Comprehensive Economic And Trade Agreement (ceta), Canada-honduras Free Trade Agreement, The Comprehensive And Progressive Agreement For Trans-pacific Partnership (cptpp), And The Canadian Free Trade Agreement (cfta).

Details: Description Request For Quotation (rfq) February 29, 2024 P. R. No.: 2024-02-0306 R.i.s. No.: 24-88-016 Company Name: ____________________________________________ Address: ___________________________________________________ Tel. No.: ___________________________________________________ Sir/madam: Please Submit Your Lowest Price Quotation (including Taxes And Government Discounts) On Charged Account Basis, On The Following Supplies/materials/ Equipment On Line Item Bid Or If Labor, On Lump Sum Bid For The Account And Official Use Of The Authority. This Request For Quotation Or Your Formal Bid Proposal May Be Submitted Through E-mail At Procmiaa@gmail.com (see Note #1 For Details) Or Personally Submitted On A Sealed Envelope Stating The Company Name/address And Project Title With R.i.s. # Thru The Bid Drop Box At The Office Of The Procurement Division On Or Before March 04, 2024 @ 2:00 Pm. Please Synchronize Your Time With The Philippine Standard Time (pst) At Www.pagasa.dost.gov.ph Thank You. Elsie P. Nitollano Manager, Procurement Division Note: 1. Quotations May Be Submitted Either Typewritten (preferred) Or Handwritten. For Quotations Sent Thru E-mail, The File Must Be On A Compressed Folder (in .zip File Format) Which Shall Be Password-protected. The Password For Accessing The Bidding Documents Will Be Disclosed By The Bidders Only During The Actual Bid Opening Which May Be Done In Person Or Thru E-mail. 2. Alternative Bids/a Bid With Options Shall Be Rejected. 3. Request For Quotation Can Be Obtained From The Office Of Procurement Division On March 01 - 04, 2024 . 4. Warranty Shall Be For A Period Of Three (3) Months, Which Shall Commence After The Final Acceptance Of The End-user 5. Price Validity Shall Be For A Period Of 120 Calendar Days From Opening Of Bid. 6. Submit Sample/s And Brochure/s, If Applicable, Showing Specifications Of Product Being Offered. Likewise State The Brand In The Rfq Or Bid Proposal. 7. If Awarded, The Bidder Shall Submit The Required Registration Documents. Item No. Qty. Unit Description Of Articles Abc/unit Unit Price Offer (brand/make/origin) 1 1 Lot Supply Of Labor, Materials, Tools And Equipment Including 111,636.00 Technical Supervision For The Siphoning And Manual/cleaning Including Disinfecting Of (3 Units) Septic Tank At International Cargo Terminal 15.36 Cu.m. Removal Of Sludge, Siphoning, Cleaning Of Manhole Including Disinfecting Of Septic Tank Materials: 3 Pails Deodorizer/sanitizer, 20 Liters/pail - For Disinfection And Treatment Of Sewage, Deodorization: For Control Of Microorganisms, Algae, Slime And Reduction Of Biochemical Oxygen Demand (b.o.d.) Physical And Chemical Properties : - Physical State : Liquid - Appearance And Odor: Brown Color, Odor Of Pine - Flammability: N/a - Flash Point: N/a - Solubility In Water: Completely Soluble 3 Lbs. Freeze Dried Bacteria With Enzyme Implant - Increases The Biodegradation Of Organic Waste, Increases Digestive Capacity And Gas Production, Reduce B.o.d., Suspended Solids, And Sludge Volume And Eliminates Odor: Physical And Chemical Properties: - Appearance: Tan Dry Material With Pleasant Odor - Boiling Point: N/a - Specific Gravity: 0.99 (2% Solution) - Vapor Pressure: N/a - Melting Point: N/a - Evaporation Rate: N/a - Solubility In Water: Mixes With Water - Ph: Neutral 6-7 In Water Dispersion 3 Pail Sewer And Drain Cleaning Compound, 20 Liters/pail - A Non-acid Sewer And Drain Cleaning Compound That Is Safe To Use In All Plumbing Lines, Septic Tanks And On Garbage Disposal. Will Dissolve Starches, Fats, Oils Greases Hair, Vegtable Gums And Other Organic Wastes. Physical And Chemical Properties: - Appearance/odor: Clear Liquid, Color Coded, Odor Of Essentials Oils - Solubility: Soluble In Water - Flammability: N/a - Flash Point: N/a Scope Of Work: 1. Mobilization Preparation And Delivery Of Required Materials, Manpower, Tools, Equipment And Other Works Necessary To Complete The Project. Provision For Safety Precaution Such As Warning Signage. 2. De-clogging, Siphoming, Cleaning Including Disinfecting Of 4" Ø Pvc Sewer Line System From Comfort Room To Septic Tank 3. Removal Of Sludge, Siphoning And Cleaning Including Disinfecting Of Septic Tanks 4. Restoration Of Affected Areas 5. Demobilization The Works Shall Cover The Cleaning Of Site Free Of All Kinds Of Construction Debris And Other Related Waste. Demobilization Of Equipment, Tools And Excess Materials. Bidder's Eligibility Requirements: 1. Bidders Must Have Undertaken Siphoning Works And Must Submit Proof Of Completion From End-user That They Have Completed Satisfactorily. 2. Bidders Are Required To Comply With The Following Technical Personnel: A. Sanitary Officer B. Safety Officer Hence, To Submit License For Sanitary Engineer And Certification Of Accreditation As Osh Practitioner From Dole For Safety Officer. 3. Bidders To Submit Original Copy Of Product Data Sheet, Itdi Test Report For Deodorizer, Grease Trap Cleaner, Sewer And Drain Clogging Compound, Material Safety Data Sheet And Sample In Original Packaging Needed For Technical Evaluation. Non Submission Of These Requirements Shall Be Ground For The Bid To Declare "failed" 4. Sample Submitted Should Be The Same As Actual Item Delivered. Miaa Employee Has The Right To Reject The Said Materials If Not Complying With The Required Specification. 5. Bidders Are Required To Have The Following Tools And Equipment Available For The Project And Shall Submit The Following To The End-user For Inspection As Part Of The Evaluation. A. Electric Router B. Jet Washer C. Gas Detector 6. Bidders Are Required To Submit Pictures (before, During, After) As Proof Of Their Siphoning Works And Must Include Their Materials Used During The Process. 7. Bidders Are Required To Submit Microbiological Testing For Frees Dried Bacteria With Enzyme Implant. 8. Bidders Are Required To Submit Methodology Of Siphoning Works. Prepared And Canvassed By : Michael Angelo J. Eleazar Analyst Procurement Division Manila International Airport Authority Tel. No.: 8877-1109 Loc. 3602 In Connection To The Above Request, We Hereby Submit Our Quotation As Indicated Above And That We Agree To Deliver The Items/complete The Project As Per Specifications Within 30 Calendar / Working Days Upon Receipt Of Corresponding Purchase/work Orders. Authorized Representative (print Name And Signature) Contact Numbers Date